Biopolymer Coatings Market to Hit $2.0 Billion by 2032

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The global Biopolymer Coatings Market was valued at USD 1.3 Billion in 2024 and it is estimated to garner USD 2.0 Billion by 2032 with a registered CAGR of 6.5% during the forecast period 2024 to 2032.

Firstly, the Market report for Biopolymer Coatings Market describes the current state of the companies and recommends where it is likely to go next. The report shows the production, revenue, price, market share, and growth rate of each type, mainly divided into Product Types and Product Applications etc.

Additionally, this market report focuses on offering key business measures such as real market moves, market size, qualities, and freedoms, as well as forecast opportunities. This Biopolymer Coatings Market report also offers distinctive insights into wealthy regions such as Europe, North America, the Middle East, Africa, and Latin America.

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Top Competitors:

AkzoNobel N.V., Archer Daniels Midland (ADM), BASF SE, Cargill Inc., Corbion, DuPont, EcoSynthetix, NatureWorks LLC, Novamont S.P.A, Roquette Group, Safepack Industries Ltd., WestRock Company and others.

This market report has all the information you need to start or grow your business in the industry. It also includes market drivers, restraints, competitiveness, and geographic estimates, as well as a price and emerging market structure. It is a complete description of a company's business model, benchmarks, consumer preferences, value proposition, and net profit. This comprehensive Biopolymer Coatings Market study also sheds light on key techniques that help companies truly assess their customers' buying behavior.

It represents global economic trends between 2024 and 2032. With the help of this market research, top companies can easily make smarter financial decisions. This market analysis is an excellent technique to help companies implement new products. It also includes critical data on major industry topics, including market expansions and evolving market conditions.

This well-researched Biopolymer Coatings Market report describes the negative impact COVID-19 is having on various companies and offers companies recommendations on how to recover from the damage suffered by the outbreak as well as the nationwide quarantine. The plan analyzes the company's expectations and priorities, as well as the delivery of all crucial data.

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This report analyzes key market segments by type, application, and geography. The geographic analysis section covers key regions such as Europe, North America, the Middle East, Africa, and the Asia-Pacific region.

This Biopolymer Coatings Market report not only provides valuable data but outlines key goals, pricing strategies, and approaches to help market participants' recommendations in this report will make accelerating economic growth easy. It offers some specific tips and business-related data to help new competitors in the market grow their businesses and diversify their product lines. Companies in the industry should choose tactics that include new product launches, mergers, and partnerships to survive in the competitive marketplace and strengthen their position.

Regional Analysis

-North America [United States, Canada, Mexico]

-South America [Brazil, Argentina, Columbia, Chile, Peru]

-Europe [Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland]

-Middle East & Africa [GCC, North Africa, South Africa]

-Asia-Pacific [China, Southeast Asia, India, Japan, Korea, Western Asia]

The quantitative information in this Biopolymer Coatings Market analysis helps predict future sales and market penetration. This type of information is based on statistics. The qualitative information provided here will greatly help the key players understand the buyer's opinion of your brand. Improving business goals becomes easy with the information provided in this report.

The industries can draw some conclusions about their original goals. In business. This Biopolymer Coatings Market research helps you make assumptions about your competition, customers, and the market in order to make informed business decisions. Additionally, it forecasts the competition in the market for the estimated period of 2024-2032. Effective decision-making in companies leads to business growth and is made possible by this precise market study.

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Some of the Key Questions Answered in this Report:

Which are the five top players of the Biopolymer Coatings Market?

How will the Biopolymer Coatings Market change in the upcoming years?

Which product and application will take a share of the Biopolymer Coatings Market?

What will be the CAGR and size of the Biopolymer Coatings Market throughout the forecast period?

What are the drivers and restraints of the Biopolymer Coatings Market?

Which regional market will show the highest growth?

What is the current industry size, what will the market size be in 2030 and what will the growth rate be?

Who are the major competitors and what is their strategy?

What are the challenges to grow in the industry?

What are the market opportunities and challenges faced by the key vendors?

What are the barriers to entry for new players in the Biopolymer Coatings industry?

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Biopolymers Market - Forecast(2024 - 2030)

Biopolymers Market Overview

The Biopolymers Market size is projected to reach US$27.5 billion by 2030, after growing at a CAGR of 11.5% over the forecast period 2024–2030. The various benefits associated with the biopolymers such as polyesters, polylactic acid, polyhydroxy butyrate, polybutylene succinate and more include biocompatibility, biodegradability, renewability and more. These benefits make biopolymers a sustainable replacement for petroleum-derived materials. The bolstering food & beverage industry, including poultry products, dried food and more is the primary factor driving the biopolymers market growth. For instance, the FAO’s food outlook published in June 2023 expects global poultry meat production to reach more than 142 million mt, a 1.3% increase compared to 2022’s value. However, The COVID-19 pandemic resulted in restrictions affecting various aspects of the supply chain, including logistics, which had a detrimental impact on production activities in the biopolymers industry. Following the pandemic, government measures aimed at rejuvenating production activities played a crucial role in fueling the recovery and growth of the biopolymers industry. Moreover, the growth of the medical and healthcare industry is fueling the demand for biopolymers. As a result, the biopolymers market size will grow throughout the forecast period.

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Report Coverage-The “Biopolymers Market Report — Forecast (2024–2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Biopolymers Market.

By Type: Bio-based Polyesters [Polylactic Acid (PLA), Polyhydroxybutyrate (PHB), Polybutylene Succinate (PBS), Polybutylene Succinate Adipate (PBSA), Polytrimethylene Terephthalate (PTT) and Others], Bio-based Polyolefins, Bio-based Polyamides (Bio-PA) (Homopolyamides, Bio-PA 6, Bio-PA 11, Copolyamides and Others), Polyurethanes, Polysaccharide Polymers (Cellulose-based Polymers and Starch-based Polymers) and Others.

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By Molding Process: Extrusion, Injection, Melt compounding and Others.

By Application: Packaging (Rigid Packaging and Flexible Packaging), Fibers, Paper & Cardboard Coatings, Agricultural Seed Coatings, Automotive Interiors & Exteriors, Medical Implants, Circuit Boards, Insulators, Laminates and Others.

By End-use Industry: Food & Beverage (Fresh Food, Bakery, Frozen Food, Dried Food, Poultry Products, Dairy Products, Confectionery, Alcoholic Beverages, Non-alcoholic Beverages and Others), Medical & Healthcare (Pharmaceuticals, Medical Devices and Others), Agriculture, Consumer Electronics (Computers, Smartphones, Refrigerators and Others), Automotive [Passenger Vehicles (PV), Light Commercial Vehicles (LCV) and Heavy Commercial Vehicles (HCV)], Textile, Aerospace (Commercial, Military and Others), Building & Construction (Residential, Commercial, Industrial and Others) and Others

By Geography: North America (the USA, Canada and Mexico), Europe (UK, Germany, France, Italy, Netherlands, Spain, Russia, Belgium and the Rest of Europe), Asia-Pacific (China, Japan, India, South Korea, Australia and New Zealand, Indonesia, Taiwan, Malaysia and Rest of APAC), South America (Brazil, Argentina, Colombia, Chile and Rest of South America), Rest of the World [Middle East (Saudi Arabia, UAE, Israel and Rest of Middle East) and Africa (South Africa, Nigeria and Rest of Africa)]

Key Takeaways

• Europe dominated the Biopolymers Market, owing to the growth of the fresh food industry in the region. For instance, according to the Federal Statistical Office of Germany,roughly 6,100 agricultural holdings in Germany harvested a total 3.8 million tonnes of vegetables in 2022.

• The government initiatives for green initiatives are fuelling the demand for Biopolymers such as polyesters, polyethylene and more are driving the market growth.

• Moreover, the increasing adoption of Biopolymers in packaging applications is also accelerating market growth.

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Biopolymers Market Segment Analysis — by Application

The packaging segment held the largest Biopolymers Market share in 2023 and is estimated to grow at a CAGR of 10.4% over the forecast period 2024–2030. Biopolymers such as polyesters, polylactic acid, polyhydroxybutyrate and more are frequently deployed in packaging because they enhance the shelf-life of the product and also it reduces the overall carbon footprint related to food packaging. The films composed of biopolymers such as polysaccharides and protein-composed increase mechanical and optical properties. As a result, biopolymers packaging is employed across various end-use industries, including food & beverages, medical & healthcare and more. Thus, owing to the above-mentioned benefits, the adoption of biopolymers is surging in packaging applications, which is accelerating market growth.

Biopolymers Market Segment Analysis — by End-use Industry

The food & beverage segment held a significant Biopolymers Market share in 2023. The key properties of biopolymers are high strength, lightweight and heat resistance. As a result, biopolymers are frequently used in the food and beverage industry. Moreover, due to their superior quality, functionality, affordability and composability, they are an ideal replacement for single-use plastic food & beverage packaging. The surging development of food & beverage facilities, governmental initiatives and others are the crucial variables propelling the food & beverage industry’s growth. For instance, according to Invest India, the food processing sector in India is one of the world’s largest, with output anticipated to reach US$535 billion by 2025–2026. Hence, the growth of the food & beverage industry is expected to fuel the demand for biopolymers. As a result, the market growth will accelerate during the upcoming years.

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Biopolymers Market Segment Analysis — by Geography

Europe is the dominating region as it held the largest Biopolymers Market share in 2023. The economic growth of Europe is driven by the growth of the various industries, including food and beverage, medical & healthcare and other similar industries. The food and beverages industry growth are vital for food security in the European region. For instance, according to Food Drink Europe, the food and drink industry in Europe produced a 107.7 production index in the fourth quarter of 2022 and a 109.2 production index in the first quarter of 2023, an increase of 1.4 percent. Also, according to the European Union, in 2022, the production of fruits in the European Union countries was about 35.9 million metric tons and out of this, apples and pears production were the highest at 14.7 million metric tons, which was 40.9% of the total fruit production. Therefore, the booming food & beverage industry in Europe is boosting the demand for biopolymers. This, in turn, is proliferating the biopolymers market size growth.

Biopolymers Market Drivers  Government Initiatives for Biopolymers

The transformation of the current linear material system into a circular economy necessitates national and international legislation. This is due to the globalized industry’s complex worldwide supply chains. Governments at the global level are taking initiatives for biopolymers. For instance, In March 2023, the European Commission adopted a policy framework on biobased, biodegradable, and compostable plastics, marking an initiative to drive the biopolymers market. Aligned with the European Green Deal, this non-legislative framework aimed to clarify environmental benefits, set strict standards, and guide future policies on green claims, ecodesign, carbon removal, and microplastics. Thus, the growing government initiatives for biodegradable packaging are driving the demand for biopolymers, which is aiding market growth.

Growth of the Medical Devices Industry

In the production of medical devices such as replacement joints, heart valves, arteries, teeth, tendons, ligaments and eye lenses, biopolymers are used to replace or repair some diseased, damaged, or non-functional pieces of tissue or bone. Factors such as technological improvements in medical equipment and an aging population are accelerating the medical device industry’s growth. For instance, in global comparison, most revenue will be generated in the United States US$182.00bn in 2024. Thus, the growth of the medical device industry is boosting the demand for biopolymers, which, in turn, is driving market growth.

Biopolymers Market Challenge Higher Cost Associated with Biopolymers

Biopolymers such as polyesters, polylactic acid, polyhydroxy butyrate and more have the advantage of easy disposable and regeneration. However, one disadvantage of biopolymers is that they necessitate the use of expensive industrial processors and composters, particularly for those that must be broken down at high industrial temperatures. For instance, according to Plastmart, the major drawback of biopolymers is their higher price tag when compared to traditional polymers. While the typical, conventional polymers cost between US$1000 and US$1500 per metric tonne (MT), biopolymers can cost anywhere from US$4000 to US$15,000 per MT for materials like polyhydroxy butyrate. Therefore, the high price associated with biopolymers may restrict the growth of the biopolymers industry in the coming years.

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Biopolymers Industry Outlook

Technology launches, acquisitions and increased R&D activities are key strategies adopted by players in the Biopolymers Market. The top 10 companies in the Biopolymers market are

Recent Developments:

• In October 2023, Braskem opened a Tokyo office, advancing bio-based solutions in the biopolymers market. With over 15 years in Japan, it reflects their commitment to sustainability. Concurrently expanding in Brazil and Thailand, Braskem focuses on delivering low-carbon alternatives globally.

• In August 2022, DSM Engineering Materials launched StanylB-MB (Bio-based Mass Balanced), a more environmentally friendly version of its mainstay polyamide (PA) product that contains up to 100% bio-based material. It enables DSM Engineering Materials to halve the carbon footprint of this product line.

• In June 2022, a global polymer manufacturer based in Germany launched VerdessenceTM RiceTouch, a new biopolymer used for various personal care products.

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Biopolymers Market - Forecast(2024 - 2030)

Biopolymers Market Overview

The Biopolymers Market size is projected to reach US$27.5 billion by 2030, after growing at a CAGR of 11.5% over the forecast period 2024-2030. The various benefits associated with the biopolymers such as polyesters, polylactic acid, polyhydroxy butyrate, polybutylene succinate and more include biocompatibility, biodegradability, renewability and more. These benefits make biopolymers a sustainable replacement for petroleum-derived materials. The bolstering food & beverage industry, including poultry products, dried food and more is the primary factor driving the biopolymers market growth. For instance, the FAO’s food outlook published in June 2023 expects global poultry meat production to reach more than 142 million mt, a 1.3% increase compared to 2022’s value. However, The COVID-19 pandemic resulted in restrictions affecting various aspects of the supply chain, including logistics, which had a detrimental impact on production activities in the biopolymers industry. Following the pandemic, government measures aimed at rejuvenating production activities played a crucial role in fueling the recovery and growth of the biopolymers industry. Moreover, the growth of the medical and healthcare industry is fueling the demand for biopolymers. As a result, the biopolymers market size will grow throughout the forecast period.

𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐒𝐚𝐦𝐩𝐥𝐞

Report Coverage 

The "Biopolymers Market Report – Forecast (2024-2030)” by IndustryARC, covers an in-depth analysis of the following segments in the Biopolymers Market. 

By Type: Bio-based Polyesters [Polylactic Acid (PLA), Polyhydroxybutyrate (PHB), Polybutylene Succinate (PBS), Polybutylene Succinate Adipate (PBSA), Polytrimethylene Terephthalate (PTT) and Others], Bio-based Polyolefins, Bio-based Polyamides (Bio-PA) (Homopolyamides, Bio-PA 6, Bio-PA 11, Copolyamides and Others), Polyurethanes, Polysaccharide Polymers (Cellulose-based Polymers and Starch-based Polymers) and Others.

By Molding Process: Extrusion, Injection, Melt compounding and Others.

By Application: Packaging (Rigid Packaging and Flexible Packaging), Fibers, Paper & Cardboard Coatings, Agricultural Seed Coatings, Automotive Interiors & Exteriors, Medical Implants, Circuit Boards, Insulators, Laminates and Others. 

By End-use Industry: Food & Beverage (Fresh Food, Bakery, Frozen Food, Dried Food, Poultry Products, Dairy Products, Confectionery, Alcoholic Beverages, Non-alcoholic Beverages and Others), Medical & Healthcare (Pharmaceuticals, Medical Devices and Others), Agriculture, Consumer Electronics (Computers, Smartphones, Refrigerators and Others), Automotive [Passenger Vehicles (PV), Light Commercial Vehicles (LCV) and Heavy Commercial Vehicles (HCV)], Textile, Aerospace (Commercial, Military and Others), Building & Construction (Residential, Commercial, Industrial and Others) and Others 

By Geography: North America (the USA, Canada and Mexico), Europe (UK, Germany, France, Italy, Netherlands, Spain, Russia, Belgium and the Rest of Europe), Asia-Pacific (China, Japan, India, South Korea, Australia and New Zealand, Indonesia, Taiwan, Malaysia and Rest of APAC), South America (Brazil, Argentina, Colombia, Chile and Rest of South America), Rest of the World [Middle East (Saudi Arabia, UAE, Israel and Rest of Middle East) and Africa (South Africa, Nigeria and Rest of Africa)]

Key Takeaways

• Europe dominated the Biopolymers Market, owing to the growth of the fresh food industry in the region. For instance, according to the Federal Statistical Office of Germany,roughly 6,100 agricultural holdings in Germany harvested a total 3.8 million tonnes of vegetables in 2022.

• The government initiatives for green initiatives are fuelling the demand for Biopolymers such as polyesters, polyethylene and more are driving the market growth.

• Moreover, the increasing adoption of Biopolymers in packaging applications is also accelerating market growth. 

• However, the high cost of the Biopolymers is expected to create a retrain for the market growth during the projected forecast period.

  Biopolymers Market Segment Analysis – by Application 

The packaging segment held the largest Biopolymers Market share in 2023 and is estimated to grow at a CAGR of 10.4% over the forecast period 2024-2030. Biopolymers such as polyesters, polylactic acid, polyhydroxybutyrate and more are frequently deployed in packaging because they enhance the shelf-life of the product and also it reduces the overall carbon footprint related to food packaging. The films composed of biopolymers such as polysaccharides and protein-composed increase mechanical and optical properties. As a result, biopolymers packaging is employed across various end-use industries, including food & beverages, medical & healthcare and more. Thus, owing to the above-mentioned benefits, the adoption of biopolymers is surging in packaging applications, which is accelerating market growth. 

Biopolymers Market Segment Analysis – by End-use Industry 

The food & beverage segment held a significant Biopolymers Market share in 2023. The key properties of biopolymers are high strength, lightweight and heat resistance. As a result, biopolymers are frequently used in the food and beverage industry. Moreover, due to their superior quality, functionality, affordability and composability, they are an ideal replacement for single-use plastic food & beverage packaging. The surging development of food & beverage facilities, governmental initiatives and others are the crucial variables propelling the food & beverage industry's growth. For instance, according to Invest India, the food processing sector in India is one of the world’s largest, with output anticipated to reach US$535 billion by 2025-2026. Hence, the growth of the food & beverage industry is expected to fuel the demand for biopolymers. As a result, the market growth will accelerate during the upcoming years. 

Biopolymers Market Segment Analysis – by Geography 

Europe is the dominating region as it held the largest Biopolymers Market share in 2023. The economic growth of Europe is driven by the growth of the various industries, including food and beverage, medical & healthcare and other similar industries. The food and beverages industry growth are vital for food security in the European region. For instance, according to Food Drink Europe, the food and drink industry in Europe produced a 107.7 production index in the fourth quarter of 2022 and a 109.2 production index in the first quarter of 2023, an increase of 1.4 percent. Also, according to the European Union, in 2022, the production of fruits in the European Union countries was about 35.9 million metric tons and out of this, apples and pears production were the highest at 14.7 million metric tons, which was 40.9% of the total fruit production. Therefore, the booming food & beverage industry in Europe is boosting the demand for biopolymers. This, in turn, is proliferating the biopolymers market size growth.

Chitosan Market Insights: Asia-Pacific's Dominance and Growth Trajectories

Introduction:

The Chitosan Market has experienced notable growth in recent years, driven by its versatile applications in various industries such as pharmaceuticals, cosmetics, agriculture, and food processing. Among the global regions, Asia-Pacific stands out as the dominant player in this market.

This article explores the reasons behind Asia-Pacific’s leading position in the chitosan market, focusing on factors such as the abundance of crustacean waste, rising demand across industries, and future growth prospects.

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Understanding Chitosan and Its Applications

What is Chitosan?

Chitosan is a biopolymer derived from chitin, a natural polymer found in the exoskeletons of crustaceans like shrimp and crabs. The process of converting chitin into chitosan involves deacetylation, which removes the acetyl groups from the chitin molecule. Chitosan is renowned for its biocompatibility, biodegradability, and versatility, making it a valuable material in various applications.

Applications of Chitosan

Pharmaceuticals: Chitosan is used in drug delivery systems, wound dressings, and as a dietary supplement. Its ability to encapsulate drugs and its antimicrobial properties make it an attractive option for pharmaceutical applications.

Cosmetics: In the cosmetic industry, chitosan is valued for its moisturizing, film-forming, and anti-aging properties. It is used in skincare products, hair care items, and as an ingredient in facial masks.

Agriculture: Chitosan finds application as a natural pesticide, soil conditioner, and growth enhancer. It helps in controlling plant diseases and improving soil health.

Food Processing: In the food industry, chitosan is used as a natural preservative, fat replacer, and in the development of edible films and coatings.

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Asia-Pacific’s Dominance in the Chitosan Market

Abundance of Crustacean Waste

Geographical Advantage: Asia-Pacific, particularly countries like China, Japan, and Thailand, is a major hub for crustacean production and consumption. The region's extensive coastline and robust seafood industry result in large quantities of crustacean shell waste, which is a primary source of chitin for chitosan production.

Economic Benefits: The easy availability of crustacean waste not only ensures a steady supply of raw materials for chitosan but also reduces production costs. This economic advantage strengthens the competitiveness of the region's chitosan industry on a global scale.

Rising Demand Across Industries

Cosmetic Industry Growth: The Asia-Pacific region has witnessed significant growth in the cosmetic industry, driven by increasing disposable incomes, urbanization, and changing beauty standards. Chitosan’s incorporation in cosmetic products aligns with the rising consumer preference for natural and effective ingredients, fueling demand for chitosan-based cosmetics.

Pharmaceutical Sector Expansion: The pharmaceutical industry in Asia-Pacific is expanding rapidly due to rising healthcare needs, advancements in medical technology, and increasing investments in research and development. Chitosan’s application in drug delivery systems and wound care products supports its growing use in the pharmaceutical sector.

Agricultural Innovation: With a focus on sustainable agriculture, Asia-Pacific countries are increasingly adopting natural and eco-friendly solutions. Chitosan’s role as a biopesticide and soil conditioner fits well with the region’s agricultural policies aimed at reducing chemical inputs and promoting environmentally friendly practices.

Food Processing Demand: The food processing industry in Asia-Pacific is also expanding, driven by growing populations, urbanization, and changing dietary preferences. Chitosan’s role as a natural preservative and fat replacer aligns with the demand for healthier and longer-lasting food products.

Key Market Trends and Developments

Technological Advancements: Advances in chitosan production technologies, such as improved deacetylation processes and the development of new applications, are enhancing the efficiency and functionality of chitosan products. These technological innovations are expected to drive further growth in the market.

Sustainability Focus: The emphasis on sustainability and the circular economy is influencing the chitosan market. Companies are exploring ways to maximize the use of crustacean waste, reduce environmental impact, and develop sustainable production practices.

Research and Development: Ongoing research and development efforts are expanding the applications of chitosan in emerging fields such as nanotechnology, biotechnology, and environmental management. These developments are likely to open new avenues for market growth.

Market Challenges and Considerations

Supply Chain and Raw Material Sourcing

Dependence on Crustacean Waste: The chitosan market’s dependence on crustacean waste makes it susceptible to fluctuations in the seafood industry. Variations in crustacean harvests or changes in seafood consumption patterns can impact the availability and cost of raw materials.

Quality Control: Ensuring consistent quality in chitosan products is crucial for maintaining market competitiveness. Variations in raw material quality and production processes can affect the performance and safety of chitosan-based products.

Regulatory and Compliance Issues

Regulatory Standards: Different countries have varying regulatory standards for chitosan products, particularly in the pharmaceutical and cosmetic sectors. Navigating these regulations and ensuring compliance can be challenging for manufacturers, especially those operating on a global scale.

Certification Requirements: Obtaining necessary certifications for chitosan products, such as GMP (Good Manufacturing Practices) and ISO (International Organization for Standardization), is essential for market acceptance and credibility. Meeting these requirements involves investment in quality management systems and adherence to industry standards.

Future Outlook

Growth Projections

The chitosan market in Asia-Pacific is expected to continue its upward trajectory, driven by the region’s competitive advantages and rising demand across various sectors. The market’s growth will be supported by ongoing technological advancements, increased focus on sustainability, and expanding applications of chitosan.

Emerging Opportunities

Innovative Applications: The development of new chitosan-based products and applications, particularly in areas such as biomedical engineering and environmental remediation, presents opportunities for market expansion.

Regional Collaborations: Collaboration between chitosan producers, research institutions, and industry stakeholders can foster innovation and drive growth in the market. Strategic partnerships and joint ventures can enhance the development and commercialization of chitosan products.

Consumer Awareness: Increasing consumer awareness of the benefits of natural and sustainable products will likely boost demand for chitosan-based solutions. Educating consumers about the advantages of chitosan can drive market growth and create new opportunities.

Conclusion

The Asia-Pacific region’s dominance in the chitosan market is driven by its abundant crustacean waste, growing demand across various industries, and ongoing advancements in technology.

As the market continues to evolve, the region’s competitive advantages and strategic developments will play a crucial role in shaping the future of chitosan.

By leveraging these strengths and addressing market challenges, Asia-Pacific is poised to maintain its leadership position and drive innovation in the chitosan industry.

Agricultural Biologicals Market Outlook Report 2024-2030: Trends, Strategic Insights, and Growth Opportunities | GQ Research

The Agricultural Biologicals market is set to witness remarkable growth, as indicated by recent market analysis conducted by GQ Research. In 2023, the global Agricultural Biologicals market showcased a significant presence, boasting a valuation of US$ 14.6 billion. This underscores the substantial demand for Agricultural Biologicals technology and its widespread adoption across various industries.

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Projected Growth: Projections suggest that the Agricultural Biologicals market will continue its upward trajectory, with a projected value of US$ 34.78 billion by 2030. This growth is expected to be driven by technological advancements, increasing consumer demand, and expanding application areas.

Compound Annual Growth Rate (CAGR): The forecast period anticipates a Compound Annual Growth Rate (CAGR) of 13.20%, reflecting a steady and robust growth rate for the Agricultural Biologicals market over the coming years.

Technology Adoption:

In the Agricultural Biologicals market, technology adoption focuses on enhancing the efficacy and sustainability of biological products for crop protection and enhancement. Advanced biotechnology methods such as genetic engineering, fermentation, and microbial screening are employed to develop novel biologicals, including biopesticides, biofertilizers, and biostimulants. Furthermore, formulation technologies such as encapsulation and microencapsulation improve the stability and shelf-life of biologicals, ensuring optimal performance in various agricultural conditions. Additionally, precision agriculture technologies, including drones and satellite imaging, facilitate targeted application of agricultural biologicals, minimizing waste and maximizing efficacy.

Application Diversity:

The Agricultural Biologicals market serves diverse applications across different segments of agriculture, including crop protection, soil health management, and crop nutrition. Biological products are used to control pests, diseases, and weeds while promoting plant growth, soil fertility, and stress tolerance. Biopesticides target specific pests with minimal impact on non-target organisms, offering environmentally friendly alternatives to chemical pesticides. Biofertilizers enhance nutrient uptake and soil microbial activity, improving crop productivity and sustainability. Biostimulants stimulate plant growth and resilience, enhancing yield and quality in various crops and cropping systems.

Consumer Preferences:

Consumer preferences in the Agricultural Biologicals market are influenced by factors such as product efficacy, safety, environmental impact, and regulatory compliance. Growers prioritize biological products that demonstrate high efficacy in pest and disease control while minimizing risks to human health and the environment. Additionally, consumer preferences favor biologicals that are compatible with integrated pest management (IPM) practices, promoting sustainable agricultural systems. Moreover, ease of application, compatibility with existing farming practices, and cost-effectiveness are important considerations for growers when choosing agricultural biologicals.

Technological Advancements:

Technological advancements in the Agricultural Biologicals market focus on improving product efficacy, formulation stability, and application precision. Research efforts aim to identify and characterize novel microbial strains and natural compounds with potent bioactivity against target pests and pathogens. Moreover, advancements in formulation technologies, such as nanoemulsions and biopolymer coatings, enhance the stability and delivery efficiency of biologicals under varying environmental conditions. Additionally, developments in biotechnology enable the engineering of microbial consortia with synergistic effects for enhanced plant growth promotion and disease suppression. Furthermore, digital agriculture technologies enable real-time monitoring and decision-making for optimized application of agricultural biologicals, improving resource efficiency and crop performance.

Market Competition:

The Agricultural Biologicals market is characterized by intense competition among multinational corporations, biotechnology firms, and startup companies, driven by factors such as product innovation, brand reputation, distribution network, and regulatory compliance. Major players leverage their research and development capabilities and global market presence to introduce new biological products and expand market share. Meanwhile, startups and smaller firms focus on niche markets and innovative technologies to differentiate themselves and gain market traction. Additionally, strategic partnerships, collaborations, and acquisitions are common strategies for companies to strengthen their product portfolios and competitive positions in the market.

Environmental Considerations:

Environmental considerations are central to the Agricultural Biologicals market, with stakeholders prioritizing sustainable agriculture practices and reduced environmental impact. Biological products offer environmentally friendly alternatives to chemical pesticides and fertilizers, minimizing risks to biodiversity, soil health, and water quality. Moreover, the use of biologicals promotes soil conservation, beneficial insect populations, and ecosystem resilience, contributing to overall agricultural sustainability. Additionally, efforts are made to ensure the safety and biodegradability of agricultural biologicals, as well as compliance with regulatory requirements for environmental protection. Overall, the adoption of agricultural biologicals supports the transition towards more sustainable and ecologically sound farming practices.

Regional Dynamics: Different regions may exhibit varying growth rates and adoption patterns influenced by factors such as consumer preferences, technological infrastructure and regulatory frameworks.

Key players in the industry include:

Bayer CropScience

BASF SE

Syngenta

Marrone Bio Innovations

Certis USA

Valent BioSciences

Koppert Biological Systems

Isagro S.p.A.

Novozymes

Lallemand Inc.

Rizobacter

Symborg

 The research report provides a comprehensive analysis of the Agricultural Biologicals market, offering insights into current trends, market dynamics and future prospects. It explores key factors driving growth, challenges faced by the industry, and potential opportunities for market players.

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Antimicrobial Packaging Market May Set New Growth Story

Global Antimicrobial Packaging Market Report from AMA Research highlights deep analysis on market characteristics, sizing, estimates and growth by segmentation, regional breakdowns & country along with competitive landscape, player’s market shares, and strategies that are key in the market. The exploration provides a 360° view and insights, highlighting major outcomes of the industry. These insights help the business decision-makers to formulate better business plans and make informed decisions to improved profitability. In addition, the study helps venture or private players in understanding the companies in more detail to make better informed decisions. Major Players in This Report Include, LINPAC (United Kingdom), Mondi (Austria), PolyOne (United States), BioCote (United Kingdom), Agion Technologies (United States), Covestro (Germany), BASF (Germany), DOW Chemical (United States), Dunmore Corporation (United States), Microban International (United States). Free Sample Report + All Related Graphs & Charts @: https://www.advancemarketanalytics.com/sample-report/43533-global-antimicrobial-packaging-market Antimicrobial Packaging prevents the microbial growth as the antimicrobial is incorporated into the packaging. This intern increases the shelf life and keeps the food safe. There are different approaches such as antimicrobial sachets, Packaging films and edible coating. They are chosen depending on the nature of produce, storage condition and required shelf life. The antimicrobial packaging can be produced by using antimicrobial agents. Increasing government regulations on food safety is affecting the market positively. Market Drivers

Growing awareness about the heath related issues

Increasing number of retail outlets in the developing countries

Market Trend

Rising consumption of packaged food

Opportunities

Increasing demand by industries such as food and beverage and agricultural products

Challenges

Lack of awareness about the antimicrobial packaging

Enquire for customization in Report @: https://www.advancemarketanalytics.com/enquiry-before-buy/43533-global-antimicrobial-packaging-market In this research study, the prime factors that are impelling the growth of the Global Antimicrobial Packaging market report have been studied thoroughly in a bid to estimate the overall value and the size of this market by the end of the forecast period. The impact of the driving forces, limitations, challenges, and opportunities has been examined extensively. The key trends that manage the interest of the customers have also been interpreted accurately for the benefit of the readers. The Antimicrobial Packaging market study is being classified by Type (Pouches, Carton Packages, Bags, Trays, Cups & Lids, Others), Application (Food & Beverages, Personal Care, Healthcare, Others), Antimicrobial Agents (Organic Acids, Essential Oils, Bacteriocins, Enzymes, Metal Ions & Oxidizers, Others), Material (Plastics, Biopolymer, Paperboard, Others) The report concludes with in-depth details on the business operations and financial structure of leading vendors in the Global Antimicrobial Packaging market report, Overview of Key trends in the past and present are in reports that are reported to be beneficial for companies looking for venture businesses in this market. Information about the various marketing channels and well-known distributors in this market was also provided here. This study serves as a rich guide for established players and new players in this market. Get Reasonable Discount on This Premium Report @ https://www.advancemarketanalytics.com/request-discount/43533-global-antimicrobial-packaging-market Extracts from Table of Contents Antimicrobial Packaging Market Research Report Chapter 1 Antimicrobial Packaging Market Overview Chapter 2 Global Economic Impact on Industry Chapter 3 Global Market Competition by Manufacturers Chapter 4 Global Revenue (Value, Volume*) by Region Chapter 5 Global Supplies (Production), Consumption, Export, Import by Regions Chapter 6 Global Revenue (Value, Volume*), Price* Trend by Type Chapter 7 Global Market Analysis by Application ………………….continued This report also analyzes the regulatory framework of the Global Markets Antimicrobial Packaging Market Report to inform stakeholders about the various norms, regulations, this can have an impact. It also collects in-depth information from the detailed primary and secondary research techniques analyzed using the most efficient analysis tools. Based on the statistics gained from this systematic study, market research provides estimates for market participants and readers. Contact US : Craig Francis (PR & Marketing Manager) AMA Research & Media LLP Unit No. 429, Parsonage Road Edison, NJ New Jersey USA – 08837 Phone: +1 201 565 3262, +44 161 818 8166 [email protected]

Special Effect Masterbatches Market: Market Outlook and Forecast up to 2030

Special effect masterbatches are additives that are used to impart special effects to plastics, such as metallic, pearlescent, sparkle mist, fluorescence, and transparent effects. They are used in a variety of industries, including automotive, packaging, consumer goods, and textiles.

The global special effect masterbatches market is expected to grow at a CAGR of 6.2% from 2021 to 2030. The growth of the market is driven by the increasing demand for plastics in various industries, the growing popularity of sustainable packaging, and the rising demand for customized products.

Key Drivers of the Market

Increasing demand for plastics in various industries: Plastics are used in a wide variety of industries, including automotive, packaging, consumer goods, and textiles. The increasing demand for plastics in these industries is driving the growth of the special effect masterbatches market.

Growing popularity of sustainable packaging: There is a growing awareness of the environmental impact of plastics. This has led to the growing popularity of sustainable packaging, which uses special effect masterbatches to create attractive and eye-catching packaging.

Rising demand for customized products: Consumers are increasingly demanding customized products. Special effect masterbatches can be used to create customized products that meet the specific needs of the customer.

Key Restraints of the Market

High cost of special effect masterbatches: Special effect masterbatches are more expensive than conventional masterbatches. This can be a restraint for some applications. Stringent regulations: There are stringent regulations governing the use of plastics in some countries. This can be a challenge for the growth of the special effect masterbatches market in these countries

Key Opportunities in the Market

Growing demand from emerging economies: Emerging economies such as China and India are showing a strong demand for plastics. This is expected to create new opportunities for the special effect masterbatches market in these economies.

Development of new technologies: The development of new technologies, such as nanotechnology and biopolymers, is expected to create new opportunities for the special effect masterbatches market.

Key Players in the Market

Some of the key players in the global special effect masterbatches market include:

A. Schulman, Inc. Clariant AG Ampacet Corporation PolyOne Corporation Gabriel Performance Products, Inc. Alok Masterbatches Tosaf Group Plasticolors, Inc. Masterbatch Solutions Polyplast Technology Group Axalta Coating Systems

These companies are engaged in developing innovative products and expanding their distribution network to gain a competitive edge in the market.

The Future of the Market

The global special effect masterbatches market is expected to grow at a CAGR of 6.2% from 2021 to 2030. The growth of the market is driven by the increasing demand for plastics in various industries, the growing popularity of sustainable packaging, and the rising demand for customized products. The market is also expected to be driven by the development of new technologies, such as nanotechnology and biopolymers.

Antimicrobial Packaging In-Depth Profiling With Key Players and Recent Developments, Forecast Period: 2021-2031

Antimicrobial Packaging Market Research, 2031

The global antimicrobial packaging market size was valued at $10.3 billion in 2021, and is projected to reach $17.9 billion by 2031, growing at a CAGR of 5.6% from 2022 to 2031.Antimicrobial packaging is specifically designed packaging medium which helps in eliminating the possibility of growth of bacteria & germs. By inhibiting the pathogenic growth, it extends the shelf life of the product.

There is a rise in the demand for packaged food, owing to the surge in disposable income of people worldwide. This boosts the product demand in the antimicrobial packaging market. Furthermore, packaged food has always been a major health concern, and for the same reason, government bodies across the world established many regulations. Food processing industries invest heavily in the development of healthier packaging methods to meet these statutory requirements. This, in turn, increases the demand for antimicrobial packaging. Further, the healthcare industry is one of the major end-users of antimicrobial packaging. Moreover, consumers are becoming very keen on hygiene and packaging other product related to food, grooming solutions, and medicines. In addition, the healthcare industry has grown significantly in recent years, thereby driving the demand during the antimicrobial packaging market forecast period. Such instances support the antimicrobial packaging market overview.

The antimicrobial packaging market is segmented on the basis of material, technology, type, and region. By material, the market is classifed into paperboard, plastic, biopolymer, and others. By technology, the market is bifurcated into active release and controlled release. By type, the market is divided into carton, bags, pouches, and others.

Region wise, the antimicrobial packaging market analysis is conducted across North America (the U.S., Canada, and Mexico), Europe (the UK, France, Germany, Italy, and rest of Europe), Asia-Pacific (China, Japan, India, South Korea, and rest of Asia-Pacific), and LAMEA (Latin America, the Middle East, and Africa).

COMPETITION ANALYSIS

The major players profiled in the antimicrobial packaging market include Avient Corporation, BASF SE, BioCote Limited, Dow, Dunmore, Klockner Pentaplast, Microban International, Mondi, Sciessent, and Takex labo Co.,Ltd.

Major companies in the market have adopted acquisition and product launch as their key developmental strategies to offer better products and services to customers in the antimicrobial packaging market.

Some examples of acquisition and partnership in the market

In August 2022, Mondi plc acquired Duino mill near Trieste (Italy) from the Burgo Group which total consideration of €40 million in order to expands its packaging unit. The mill currently operates one paper machine producing lightweight coated mechanical paper. Mondi plans to convert this paper machine to produce around 420,000 tonnes per annum of high-quality recycled containerboard for an estimated investment of around €200 million.

In June 2022, Confoil and BASF collaborated to develop a certified compostable dual ovenable paper tray for packaging ready-to-eat meals. This will strengthen the product portfolio of the company and increase its customer base.

In May 2020, Cartro, has collobirated with Mondi Ltd., one of the major market competitors, partnered. by meamns of Their collobortation may have enhanced the market value for anti-microbial packaging because they were successful in developing eco-friendly packaging for both fresh and regional goods.

In September 2022, Mondi has collaborated with Austrian bacon producer Handl Tyrol in order to provide a new mono-material polypropylene (PP) high barrier packaging solution for bacon. In addition, The eye-catching ‘wood effect’ film ensures safe vacuum packaging and offers excellent protection to prevent food waste..

In December 2022, BASF has collaborated to StePac to create contact-sensitive packaging solution for the preservation of fresh produce, making use of BASF’s ChemCycling technology to facilitate the production of Ultramid Ccyled polyamide 6 for StePac’s Xgo Circular series.

In December 2020 Touchguard and DS Smith have partnered to develop range of cardboard packaging with antimicrobial properties for e-commerce industry. Thus, all such factors collectively are expected to drive the growth of the company and expand its customer base by strengthening the product portfolio.

The product launch in the market

In May 2021, Avient has launches GLS thermoplastic elastomers with antimicrobial technology that protects against microbial growth. In addition, tested in accordance with JIS Z2801 and ASTM G21–15 standards, these additives protect molded plastic parts by inhibiting bacterial growth (99.9 percent or more) and resisting fungal and mold growth..

In June 2022, Avient Corporation, a premier provider of specialized and sustainable material solutions and services has launched its breakthrough PCR Color Prediction Service for polyolefins and polyethylene terephthalate (PET) resins, and the company’s new polyolefin antioxidants, Cesa Nox A4R Additives for Recycling.

In February 2021, Toppan Company developed film called “Virusweeper” for packaging with antibacterial and antiviral functions. Such instances are anticipated to boost growth of the antimicrobial packaging market.

In August 2020, Parkside Company and Touchguard Company collaborated to launch “Coating” for packaging solutions with an antimicrobial coating that protects against harmful bacteria. This will enhance and strengthen the product portfolio for the customer.

In June 2020, Designsake company has launched new coating with antimicrobial properties called “Matter” which kills/reduces harmful bacteria by 99.99%. The matter consist of a barrier made of silver ion technology. The company is taking lots of efforts to fulfill rising demand of customers by making innovations in the antimicrobial coating. Such instances are expected to drive the growth of the company.

Full Report With TOC:-https://www.alliedmarketresearch.com/antimicrobial-packaging-market-A16502

Biopolymer Coatings Market Segmentation and Analysis by Recent Trends, Development and Growth by Regions to 2025

Biopolymer Coatings Market Segmentation and Analysis by Recent Trends, Development and Growth by Regions to 2025

9 April 2019 – The Global Biopolymer Coating Marketis subject to witness a substantial growth due to the numerous benefits over traditional coating such as epoxy, fiberglass, and paints. Growing use of biopolymer coatings in green packaging along with favorable government laws & regulations are expected to boost market expansion over the next seven years. Globally, the market is predicted to…

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Biobased Chemicals, Materials, Polymers, Plastics, Paints & Coatings and Fuel Global Market to 2033

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Biobased Chemicals, Materials, Polymers, Plastics, Paints & Coatings and Fuel Global Market to 2033

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Dublin, Nov. 09, 2022 (GLOBE NEWSWIRE) — The “The Global Market for Biobased Chemicals, Materials, Polymers, Plastics, Paints & Coatings and Fuels to 2033” report has been added to ResearchAndMarkets.com’s offering.

Biobased materials refer to products that mainly consist of a substance (or substances) derived from living matter (biomass) and either occur naturally or are synthesized, or it may refer to products made by processes that use biomass. Materials from biomass sources include bulk chemicals, platform chemicals, solvents, polymers, and biocomposites.

The many processes to convert biomass components to value-added products and fuels can be classified broadly as biochemical or thermochemical.

In addition, biotechnological processes that rely mainly on plant breeding, fermentation, and conventional enzyme isolation also are used. New bio-based materials that may compete with conventional materials are emerging continually, and the opportunities to use them in existing and novel products are explored in this publication.

There is growing consumer demand and regulatory push for bio-based chemicals, materials, polymers, plastics, paints, coatings and fuels with high performance, good recyclability and biodegradable properties to underpin transition towards more sustainable manufacturing and products.

Contents include:

In-depth market analysis of bio-based chemical feedstocks, biopolymers, bioplastics, natural fibers and lignin, biofuels and bio-based coatings and paints.

Global production capacities, market volumes and trends,current and forecast to 2033.

Analysis of bio-based chemical including 11-Aminoundecanoic acid (11-AA), 1,4-Butanediol (1,4-BDO), Dodecanedioic acid (DDDA), Epichlorohydrin (ECH), Ethylene, Furan derivatives, 5-Chloromethylfurfural (5-CMF), 2,5-Furandicarboxylic acid (2,5-FDCA), Furandicarboxylic methyl ester (FDME), Isosorbide, Itaconic acid, 5 Hydroxymethyl furfural (HMF), Lactic acid (D-LA), Lactic acid – L-lactic acid (L-LA), Lactide, Levoglucosenone, Levulinic acid, Monoethylene glycol (MEG), Monopropylene glycol (MPG), Muconic acid, Naphtha, 1,5-Pentametylenediamine (DN5), 1,3-Propanediol (1,3-PDO), Sebacic acid and Succinic acid.

Analysis of synthetic bio-polymers and bio-plastics market including Polylactic acid (Bio-PLA), Polyethylene terephthalate (Bio-PET), Polytrimethylene terephthalate (Bio-PTT), Polyethylene furanoate (Bio-PEF), Polyamides (Bio-PA), Poly(butylene adipate-co-terephthalate) (Bio-PBAT), Polybutylene succinate (PBS) and copolymers, Polyethylene (Bio-PE), Polypropylene (Bio-PP)

Analysis of naturally produced bio-based polymers including Polyhydroxyalkanoates (PHA), Polysaccharides, Microfibrillated cellulose (MFC), Cellulose nanocrystals, Cellulose nanofibers, Protein-based bioplastics, Algal and fungal.

Analysis of market for biofuels.

Analysis of types of natural fibers including plant fibers, animal fibers including alternative leather, wool, silk fiber and down and polysaccharides.

Markets for natural fibers, including composites, aerospace, automotive, construction & building, sports & leisure, textiles, consumer products and packaging.

Production capacities of lignin producers.

In depth analysis of biorefinery lignin production.

Analysis of the market for bio-based, sustainable paints and coatings.

Analysis of types of bio-coatings and paints market. Including Alkyd coatings, Polyurethane coatings, Epoxy coatings, Acrylate resins, Polylactic acid (Bio-PLA), Polyhydroxyalkanoates (PHA), Cellulose, Rosins, Biobased carbon black, Lignin, Edible coatings, Protein-based biomaterials for coatings, Alginate etc.

Profiles of over 800 companies.

Story continues

Key Topics Covered:

1 EXECUTIVE SUMMARY

2 RESEARCH METHODOLOGY

3 THE GLOBAL PLASTICS MARKET 3.1 Global production 3.2 The importance of plastic 3.3 Issues with plastics use 3.4 Policy and regulations 3.5 The circular economy 3.6 Conventional polymer materials used in packaging 3.6.1 Polyolefins: Polypropylene and polyethylene 3.6.2 PET and other polyester polymers 3.6.3 Renewable and bio-based polymers for packaging 3.7 Comparison of synthetic fossil-based and bio-based polymers 3.8 End-of-life treatment of bioplastics

4 BIO-BASED CHEMICALS 4.1 Types 4.2 Production capacities 4.3 Bio-based adipic acid 4.4 11-Aminoundecanoic acid (11-AA) 4.5 1,4-Butanediol (1,4-BDO) 4.6 Dodecanedioic acid (DDDA) 4.7 Epichlorohydrin (ECH) 4.8 Ethylene 4.9 Furfural 4.10 5-Hydroxymethylfurfural (HMF) 4.11 5-Chloromethylfurfural (5-CMF) 4.12 2,5-Furandicarboxylic acid (2,5-FDCA) 4.13 Furandicarboxylic methyl ester (FDME) 4.14 Isosorbide 4.15 Itaconic acid 4.16 3-Hydroxypropionic acid (3-HP) 4.17 5 Hydroxymethyl furfural (HMF) 4.18 Lactic acid (D-LA) 4.19 Lactic acid – L-lactic acid (L-LA) 4.20 Lactide 4.21 Levoglucosenone 4.22 Levulinic acid 4.23 Monoethylene glycol (MEG) 4.24 Monopropylene glycol (MPG) 4.25 Muconic acid 4.26 Naphtha 4.27 Pentamethylene diisocyanate 4.28 1,3-Propanediol (1,3-PDO) 4.29 Sebacic acid 4.30 Succinic acid (SA)

5 BIOPOLYMERS AND BIOPLASTICS 5.1 Bio-based or renewable plastics 5.1.1 Drop-in bio-based plastics 5.1.2 Novel bio-based plastics 5.2 Biodegradable and compostable plastics 5.2.1 Biodegradability 5.2.2 Compostability 5.3 Advantages and disadvantages 5.4 Types of Bio-based and/or Biodegradable Plastics 5.5 Market leaders by biobased and/or biodegradable plastic types 5.6 Regional/country production capacities, by main types 5.6.1 Bio-based Polyethylene (Bio-PE) production capacities, by country 5.6.2 Bio-based Polyethylene terephthalate (Bio-PET) production capacities, by country 5.6.3 Bio-based polyamides (Bio-PA) production capacities, by country 5.6.4 Bio-based Polypropylene (Bio-PP) production capacities, by country 5.6.5 Bio-based Polytrimethylene terephthalate (Bio-PTT) production capacities, by country 5.6.6 Bio-based Poly(butylene adipate-co-terephthalate) (PBAT) production capacities, by country 5.6.7 Bio-based Polybutylene succinate (PBS) production capacities, by country 5.6.8 Bio-based Polylactic acid (PLA) production capacities, by country 5.6.9 Polyhydroxyalkanoates (PHA) production capacities, by country 5.6.10 Starch blends production capacities, by country 5.7 SYNTHETIC BIO-BASED POLYMERS 5.7.1 Polylactic acid (Bio-PLA) 5.7.1.1 Market analysis 5.7.1.2 Producers 5.7.2 Polyethylene terephthalate (Bio-PET) 5.7.2.1 Market analysis 5.7.2.2 Producers 5.7.3 Polytrimethylene terephthalate (Bio-PTT) 5.7.3.1 Market analysis 5.7.3.2 Producers 5.7.4 Polyethylene furanoate (Bio-PEF) 5.7.4.1 Market analysis 5.7.4.2 Comparative properties to PET 5.7.4.3 Producers 5.7.5 Polyamides (Bio-PA) 5.7.5.1 Market analysis 5.7.5.2 Producers 5.7.6 Poly(butylene adipate-co-terephthalate) (Bio-PBAT) 5.7.6.1 Market analysis 5.7.6.2 Producers 5.7.7 Polybutylene succinate (PBS) and copolymers 5.7.7.1 Market analysis 5.7.7.2 Producers 5.7.8 Polyethylene (Bio-PE) 5.7.8.1 Market analysis 5.7.8.2 Producers 5.7.9 Polypropylene (Bio-PP) 5.7.9.1 Market analysis 5.7.9.2 Producers 5.8 NATURAL BIO-BASED POLYMERS 5.8.1 Polyhydroxyalkanoates (PHA) 5.8.1.1 Types 5.8.1.2 Synthesis and production processes 5.8.1.3 Market analysis 5.8.1.4 Commercially available PHAs 5.8.1.5 Markets for PHAs 5.8.1.6 Producers 5.8.2 Polysaccharides 5.8.2.1 Microfibrillated cellulose (MFC) 5.8.2.2 Cellulose nanocrystals 5.8.2.3 Cellulose nanofibers 5.8.2.4 Bacterial Nanocellulose (BNC) 5.8.3 Protein-based bioplastics 5.8.3.1 Types, applications and producers 5.8.4 Algal and fungal 5.8.4.1 Algal 5.8.4.2 Mycelium 5.8.5 Chitosan 5.8.6 Microplastics alternatives 5.9 PRODUCTION OF BIOBASED AND SUSTAINABLE PLASTICS, BY REGION 5.9.1 North America 5.9.2 Europe 5.9.3 Asia-Pacific 5.9.3.1 China 5.9.3.2 Japan 5.9.3.3 Thailand 5.9.3.4 Indonesia 5.9.4 Latin America 5.10 MARKET SEGMENTATION OF BIOPLASTICS 5.10.1 Packaging 5.10.2 Consumer products 5.10.3 Automotive 5.10.4 Building & construction 5.10.5 Textiles 5.10.6 Electronics 5.10.7 Agriculture and horticulture 5.11 BIO-BASED CHEMICALS, BIOPOLYMERS AND BIOPLASTICS COMPANY PROFILES (325 company profiles)

6 NATURAL FIBERS 6.1 Manufacturing method, matrix materials and applications of natural fibers 6.2 Advantages of natural fibers 6.3 Commercially available next-gen natural fiber products 6.4 Market drivers for next-gen natural fibers 6.5 Challenges 6.6 Plants (cellulose, lignocellulose) 6.6.1 Seed fibers 6.6.1.1 Cotton 6.6.1.2 Kapok 6.6.1.3 Luffa 6.6.2 Bast fibers 6.6.2.1 Jute 6.6.2.2 Hemp 6.6.2.3 Flax 6.6.2.4 Ramie 6.6.2.5 Kenaf 6.6.3 Leaf fibers 6.6.3.1 Sisal 6.6.3.2 Abaca 6.6.4 Fruit fibers 6.6.4.1 Coir 6.6.4.2 Banana 6.6.4.3 Pineapple 6.6.5 Stalk fibers from agricultural residues 6.6.5.1 Rice fiber 6.6.5.2 Corn 6.6.6 Cane, grasses and reed 6.6.6.1 Switch grass 6.6.6.2 Sugarcane (agricultural residues) 6.6.6.3 Bamboo 6.6.6.4 Fresh grass (green biorefinery) 6.6.7 Modified natural polymers 6.6.7.1 Mycelium 6.6.7.2 Chitosan 6.6.7.3 Alginate 6.7 Animal (fibrous protein) 6.7.1 Wool 6.7.1.1 Alternative wool materials 6.7.1.2 Producers 6.7.2 Silk fiber 6.7.2.1 Alternative silk materials 6.7.3 Leather 6.7.3.1 Alternative leather materials 6.7.4 Fur 6.7.4.1 Producers 6.7.5 Down 6.7.5.1 Alternative down materials 6.8 MARKETS FOR NATURAL FIBERS 6.8.1 Composites 6.8.2 Applications 6.8.3 Natural fiber injection moulding compounds 6.8.3.1 Properties 6.8.3.2 Applications 6.8.4 Non-woven natural fiber mat composites 6.8.4.1 Automotive 6.8.4.2 Applications 6.8.5 Aligned natural fiber-reinforced composites 6.8.6 Natural fiber biobased polymer compounds 6.8.7 Natural fiber biobased polymer non-woven mats 6.8.7.1 Flax 6.8.7.2 Kenaf 6.8.8 Natural fiber thermoset bioresin composites 6.8.9 Aerospace 6.8.9.1 Market overview 6.8.10 Automotive 6.8.10.1 Market overview 6.8.10.2 Applications of natural fibers 6.8.11 Building/construction 6.8.11.1 Market overview 6.8.11.2 Applications of natural fibers 6.8.12 Sports and leisure 6.8.12.1 Market overview 6.8.13 Textiles 6.8.13.1 Market overview 6.8.13.2 Consumer apparel 6.8.13.3 Geotextiles 6.8.14 Packaging 6.8.14.1 Market overview 6.9 NATURAL FIBERS GLOBAL PRODUCTION 6.9.1 Overall global fibers market 6.9.2 Plant-based fiber production 6.9.3 Animal-based natural fiber production 6.10 NATURAL FIBER COMPANY PROFILES (178 company profiles)

7 LIGNIN 7.1 INTRODUCTION 7.2 LIGNIN PRODUCTON PROCESSES 7.3 MARKETS FOR LIGNIN 7.4 COMPANY PROFILES (75 company profiles)

8 BIOBASED AND RENEWABLE FUELS 8.1 BIOFUELS 8.2 ELECTROFUELS (E-FUELS) 8.3 GREEN AMMONIA 8.4 COMPANY PROFILES (114 company profiles)

9 BIO-BASED PAINTS AND COATINGS 9.1 The global paints and coatings market 9.2 Bio-based paints and coatings 9.3 Challenges using bio-based paints and coatings 9.4 Types of bio-based coatings and materials 9.5 Market for bio-based paints and coatings 9.6 Company profiles (130 company profiles)

10 REFERENCES

For more information about this report visit https://www.researchandmarkets.com/r/dbzix6

CONTACT: CONTACT: ResearchAndMarkets.com Laura Wood,Senior Press Manager [email protected] For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900

Edible Films And Coating Market Projected To Be Valued At $856.4 Billion By 2028

The global edible films and coating market size is expected to reach USD 4.54 billion by 2028, registering a CAGR of 7.7% from 2022 to 2028 according to a new report by Grand View Research, Inc., Growing demand for edible films and coating food products from consumers’ as they are eco-friendly and benefiting by preserving high-quality product during transportation will drive the edible films and coatings market growth. Edible films and coatings technology is useful for improving the food quality, shelf life, safety, and functionality of the product. Edible films and coating are one of the best potential alternatives for food packaging that can improve the storability of food, provide an alternative for existing packaging solutions, bio-degradable, eco-friendly, and for expanding the shelf life of products.

Edible films and coating work as a barricade to CO2, moisture, oxygen, lipids, and aromas between food component and the surrounding environment, these films or coating helps to improve the food quality and increases the shelf life of the product. Soybean proteins, wheat gluten, corn zein, whey, sunflower proteins, and gelatin are the most popular proteins used in editable films and coatings.

Edible material contains polymer and it benefits in many ways as it holds low unit weight and good shear characteristics. The use of natural biopolymers has several advantages in life sciences as it is available from agriculture, marine life, or animals and has biocompatibility, and is easily biodegradable. Thus, manufacturing companies are investing heavily in R&D. Consumers are more inclined toward environment-friendly solutions, and the growing interest of food manufacturing companies will drive the edible films and coating market.

The COVID-19 pandemic has affected a number of economies all across the globe. The pandemic has negatively influenced many industries by slowing down their economic movement. Like other industries, the food packaging industry had an adverse effect on their economic movement. Reduced demand for food products, fruits, and vegetables from consumers due to country-wise lockdown, which negatively affected the edible films and coatings market during the period. These factors hamper the growth of edible films and coating industry.

Request a free sample copy or view the report summary: Edible Films And Coating Market Report

Edible Films And Coating Market Report Highlights

North America accounted for the largest market share of around 35% of global revenue in 2021. The presence of a number of global players, rising demand for edible films and coating due to health reasons, easy availability, and consumers’ willingness to pay for the product will drive market growth.

Polysaccharides material in edible films and coatings accounted for the largest share of around 40% of global revenue in 2021. Starch, cellulose, carrageenan, carboxymethylcellulose, gums, etc. are used for making edible films and coatings. Polysaccharides are suitable for fruits and vegetables are it modifies the internal environment of the product.

Asia Pacific is estimated to second-largest contributor and fastest-growing edible films and coatings market at a CAGR of 8.2% from 2022 to 2028. China and Japan are the major contributors to the edible films and coating market in this region.

Fruits and vegetables accounted for the highest revenue share of over 35% in the global edible films and coating revenue in 2021 and are expected to be the fastest growing with a CAGR of 8.1% from 2022 to 2028. The edible coating is highly used for fruits and vegetables as it helps to sustain textural properties, mass transfer in vegetables and fruits, and reduce oxidative reactions on fruits and vegetables.

Edible Films Coating Market Segmentation

Grand View Research has segmented the edible films and coating market based on material type, application, and region.

Edible Films and Coating Material Type Outlook (Revenue, USD Million, 2017 - 2028)

Protein

Polysaccharides

Lipids

Composites

Edible Films and Coating Application Outlook (Revenue, USD Million, 2017 - 2028)

Fruits and Vegetables

Bakery and Confectionery

Dairy Products

Meat, Poultry, and Seafood

Nutritional Products

Edible Films and Coating Regional Outlook (Revenue, USD Million, 2017 - 2028)

North America

U.S.

Europe

Germany

U.K.

France

Asia Pacific

China

Japan

Central & South America

Brazil

Middle East & Africa

South Africa

List of Key Players in Edible Films And Coating Market

Tate & Lyle PLC

DuPont de Nemours Inc.

Dohler Group

Koninklijke DSM NV

Cargill Incorporated

Ingredion Incorporated

Lactips

Nagase America LLC

Kerry Group plc

Pace International, LLC

Watson Inc.

About Grand View Research Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

U.S Powerful Discharge Tube Market 2022 Analysis, Research Study With SINGI, TDK, UN Semiconductor, SOCAY

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Nanocellulose Market Size, Growth, Trends, Demand, Key Player profile and Regional Outlook by 2030

Nanocellulose is derived from wood pulp or plant cellulose. It can be obtained through chemical or mechanical treatment to cellulose, a biopolymer material abundantly available worldwide. It exhibit excellent thermal, rheological, mechanical, and structural properties such as biodegradability, low density, superior strength, and high water binding capability. With the aforementioned properties, it is widely used in various applications such as oil & gas, personal care, paints & coatings, paper & board, composites & packaging, and others.

Some of the prominent factors that positively influence the growth of Nanocellulose Market are rising crude oil production, growing demand for composite, and increasing urbanization. Moreover, rapid industrialization along with rising per capita disposable income in developed and emerging economies are expected to drive the growth of the market over the assessment period 2017-2023. Furthermore, continuous expansion of automotive sector along with shifting manufacturers focus towards cost-effective vehicles are predicted to fuel the growth of the market during the assessment period 2017-2023. Rising application scope of cellulosic based products in paper & pulp production along with increasing environmental concerns is estimated to drive the Global Nanocellulose Market over the assessment period.

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Competitive Analysis:

The major players operating in the Nanocellulose Market are DAICEL FINECHEM LTD (JAPAN), NIPPON PAPER INDUSTRIES CO., LTD. (Japan), Borregaard (Norway), CelluForce (U.S.), Sappi Ltd. (South Africa), Kruger Inc. (Canada), STORA ENSO (Finland), AmericanProcess Inc. (U.S.), UPM (Finland), J. RETTENMAIER & SÖHNE GmbH + Co KG (Germany), and others.

Market Segmentation:

The Global Nanocellulose Market is segmented into types, application, and regions. On the basis of type, the market is segmented into nanofibrillar cellulose (NFC), nanocrystalline cellulose (NCC), bacterial cellulose (BCC). Among these, nanofibrillar cellulose accounted for the largest market share in 2016 and expected to retain its dominance over the forecast period due to wide utilization in numerous end use application such as paints & coatings, oil & gas, and composites & packaging. Moreover, it can be widely utilized in textiles, packaging films, and personal care products. Bacterial cellulose is predicted to grow at the highest CAGR during the forecast period as it provide immense potential in the fields of drug delivery system and biomedical implants. On the basis of application, the market is segmented into composites & packaging, paper & board, paints & coatings, oil & gas, personal care, and others. Composites & packaging is the largest application segment and accounted for around 40% of the market share. Nanocellulose based composites are used in automotive sector due to its high tensile strength and excellent thermal durability. Moreover, they are used as rheological modifier in paints & coatings, food & beverages, and oil & gas sector.

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Regional Analysis:

North America is estimated to be the largest Nanocellulose Market followed by Europe and Asia Pacific on account of strong existence of many big market players. European countries such as Germany and Spain are predicted to register a strong growth due to tremendous demand for Nanocellulose based composites in the automobile sector. In Asia Pacific, countries such as China, Japan, and India are the fastest growing market for Nanocellulose, and is estimated to grow at the same pace over the assessment period. Improving living standards along with the growing personal care sector is expected to contribute to the regional market growth. In North America, the U.S and Canada are among the major contributors to the regional market growth on account of expansion of cosmetics & personal care as well as rising innovations. The Middle East and Africa is estimated to witness a steady growth due to increasing foreign investments and shifting of manufacturing base for end use industries to these region.

Global Global Talc Market 2021 to 2027 Qualitative and Quantitative Assessment by Industry Analysis across the Value Chain

The global Talc market is valued at US$2.7 billion in 2020. It is expected to grow at a CAGR of 4.6% during the forecast period, mainly due to the increasing demand for Talc in the production of lightweight plastic parts extensively used in the automotive industry.

Talc, also known as Soapstone or Steatite, is a hydrous Magnesium Silicate mineral with a chemical composition of 63.5% Silica (Si02), 31.7% Magnesia (MgO), and 4.8% water (H20). Talc is widely used in many end-use industries such as pulp and paper, paints and coatings, and plastics and rubber, and this is expected to be one of the main factors driving market growth over the forecast period.

ChemIntel360's global Talc market study is a 173-page report containing in-depth analysis on historical and forecasted spending, consumption patterns in the sector, and related market dynamics such as trends, drivers, and challenges. The study offers granular value and volume data from a global, regional, and end-use industry perspective.

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The base year is 2020 for the study with historical data between 2015 and 2020. The data forecast has been provided for the years between 2021 and 2026.

Key insights from the Global Talc report

Insights on End-Use Industry

Talc has multiple applications across many end-user industries such as pulp and paper, paints and coatings, plastics and rubber, food and beverage, personal care, and pharmaceuticals. Due to its fine and platy shape, Talc particles are used as fillers in plastics manufacturing. Moreover, it is used as a nucleating agent in biopolymers and semi-crystalline polymers, an anti-blocking agent in polyethylene, and helps restore recycled plastics' mechanical properties. Its inherent properties, such as resistance to heat, electrical insulation, and tensile strength, make it an ideal choice for lab countertops and electrical switchboards.

Furthermore, Talc acts as a coating agent in the paper manufacturing process to improve the quality of the offset papers and colored papers and labels.

In rubber manufacturing, Talc is often used as a compounding material for certain types of hard rubber. It also acts as a reinforcing agent to improve mechanical properties such as resilience, toughness, and tensile strength.

Additionally, Talc is also an excellent lubricant and dusted on the molds through which un-vulcanized rubber is extruded to form wire, cables, tires, etc. This process prevents the rubber molds from stick

Regional Insights

Asia-Pacific was the largest and fastest-growing market for Talc in 2020, mainly driven by robust demand from India, China, and Japan. China is the leading producer of Talc, with 90% of its reserves found in 15 provinces, including Liaoning, Shandong, Guangxi, Jiangxi, and Qingha.

India is among only a handful of global countries with White Talc deposits, most of which is consumed locally. Golcha Group and Golcha Associated, based in Rajasthan, are the primary producers of commercial Talc and cater to the cosmetics and polymer industry.

Meanwhile, the U.S. is the third-largest consumer of Talc globally, after China and India, and a net importer of the mineral. Talc imports in the U.S. are driven by growing demand from the automotive plastics market.

Market Dynamics

Trends

The global Talc industry is currently witnessing a phase of robust technological advancements due to significant and sustained R&D investments by Talc manufacturers such as Imerys, IMI FabiSpA, and Minerals Technologies. Consistent investment in upgrading processes and technology in the Talc industry has led to the development of new grades of Talc, used as barrier coatings in paperboard food packaging. For instance, Imerys has developed a range of hyper platy pigments, which improves the barrier performance of water-based coating solutions for the food packaging industry. In January 2020, Indian Talc producer Golcha Associated developed new grades of finer and purer Talc mainly to service the plastics and paint industries.

Drivers

The growing demand from industries such as pulp and paper, paints and coatings, and plastics and rubber, is driving growth in the global Talc market.

The plastic industry uses Talc as fillers. The platy shape of Talc particles is used to increase rigidity in Polypropylene, Vinyl, Polyethylene, Nylon, and Polyester. The usage of Talc in plastics improves its hardness, tensile strength, toughness, impact absorption, and stability. It also makes these products heat resistant and reduces shrinkage. The increasing production of plastics globally is expected to increase the demand for Talc over the forecast period.

The pulp and paper industry is the second-largest consumer of Talc after plastics, using the mineral as a pitch and sticky control agent, coating pigment, and multifunctional filler. It reduces paper surface friction, crepe wrinkles, and core burst problems. Talc being organophilic absorbs impurities, neutralizes stickiness throughout the pulp and paper recycling process, and is used as a cleaner of the wet-end system of the paper machine.

Talc is extensively used in industrial paints and coatings, wood lacquers, printing inks, fillers, etc. Due to its barrier properties, Talc restrains water and other corrosive agents from entering paints and coatings, reducing corrosion, peeling, and bubble formation.

Moreover, Talc improves the mechanical properties of rubber compounds. Its heat resistance and bonding qualities make it an ideal choice for rubber manufacturers. Also, Talc provides bounce properties in rubber and prevents the rubber from sticking. It decreases the viscosity in rubber, which in turn helps to process molded parts. Also, it has extrudate qualities that protect the exteriors of automotive profiles from UV radiation. Further, it acts as an insulator in tire manufacturing processes.

COVID-19 Impact

COVID-19 induced lockdowns, travel bans, and business shutdowns have adversely impacted the global Talc market. The lockdowns led to a temporary closure of many end-user industries such as pulp and paper, paints and coatings, and automotive, thereby drastically reducing the demand for Talc. The major raw material suppliers to the Talc industry, globally, India and China, were the worst affected due to extended lockdowns.

However, as the world emerges from the worst phase of the pandemic and industrial activity resumes, the market is expected to rebound quickly, mainly on the back of pent-up demand globally.

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Key Companies

The key companies operating in this market are Mondo Minerals(acquired by Elementis), Minerals Technologies, Imerys,Nippon Talc, GolchaGroup, IMI Fabi, Liaoning AihaiTalc, Cnps Guangxi Guilin LongshengHuamei Talc Development CO.Ltd., Sibelco, and Xilolite.

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Attractive Opportunities in the Calcite Market

The Global Calcite Market size is estimated to be USD 10.1 billion in 2019 and projected to reach USD 13.0 billion by 2024, growing at a CAGR of 5.2% from 2019 to 2024. Increasing demand for paper and plastics, coupled with easy availability and cost-effectiveness, are expected to drive the growth of the market during the forecast period.

Browse 105 Market Data Tables and 36 Figures spread through 145 Pages and in-depth TOC on "Calcite Market by Type (GCC, PCC), Application (Paper, Paints & Coatings, Construction, Plastics, Adhesives & Sealants), and Region (North America, Europe, Asia Pacific, Middle East & Africa, and South America) - Global Forecast to 2024"

Major companies operating in the calcite industry include Imerys S.A. (France), Omya AG (Switzerland), Minerals Technologies Inc. (US), Huber Engineered Materials (US), and Gulshan Polyols Ltd. (India). These companies account for a major share of the market.

The paper application is projected to be the major consumer of calcite during the forecast period

The global calcite market is segregated based on application into paper, paints & coatings, construction, plastics, adhesives & sealants, and others. In terms of value & volume, the paper application accounted for the largest share of the market in 2018. This growth is attributed to its ability to enhance the printability, whiteness, and brightness & opacity of the paper. The plastics application is projected to grow at the highest CAGR during the forecast period.

Asia Pacific is projected to be the largest consumer of calcite during the forecast period

Based on region, the calcite market is segregated into Asia Pacific, the Middle East & Africa, North America, Europe, and South America. Among these, the Asia Pacific accounted for the largest share in 2018 and is also projected to grow at the highest CAGR during the forecast period. This growth is attributed to the expansion in calcite manufacturing and high demand from the plastics and paper industries in China, Japan, and India, among others. Moreover, cheap labor, easy availability of raw material, and other factors are expected to fuel the growth of the market in the region during the forecast period.

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Recent Developments

In November 2019, Imerys S.A. acquired some assets of the EDK company, a leading producer of ground calcium carbonates (GCC) in Brazil. These assets include three operating plants and 100 employees, which generated annual revenues of USD 15.5 million in 2018.

In June 2019, Minerals Technologies Inc. installed and deployed a new ENVIROFIL PCC technology, a new, innovative recycling technology that allows papermakers to recover mineral pigments from the deinking residue by converting these raw materials, at UPM-Kymmene Corporation’s paper mill in Schongau, Germany. This process has proven to substantially improve waste paper yield, mitigating solid waste disposal costs, and reducing the environmental impact of the deinking process.

In November 2018, Omya AG introduced a new functionalized calcium carbonate for use in biopolymers under the brand name, Omya Smartfill 55– OM. The new calcium carbonate is used particularly as filler material for polylactic acid (PLA) as this does not demonstrate almost any hydrolysis when processed at filler loads of up to 40%.

In November 2018, Nordkalk Corporation increased its production capacity of limestone in Turkey. The new crushing plant increases the annual production capacity to 2.5 million tons of limestone, offered in several fractions. In addition to capacity increase, the plant enhances the health and safety conditions and impact of production on the environment.

Key Questions addressed by the report

What are the future revenue pockets in the calcite market?

Which key developments are expected to have a long-term impact on the calcite industry?

Which type is expected to cannibalize existing markets?

How is the current regulatory framework expected to impact the market?

What will be the future product mix of the calcite industry?

What are the prime strategies of leaders in the calcite market?

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Imerys S.A. (France) is one of the leading players in the calcite market and has been adopting inorganic & organic strategies to sustain its market position. For instance, in November 2019, Imerys S.A. acquired some assets of the EDK company, a leading producer of ground calcium carbonates (GCC) in Brazil. These assets include three operating plants and 100 employees, which generated annual revenues of USD 15.5 million in 2018. In February 2018, Imerys S.A. acquired the carbonate business of Vimal Microns (India), a major producer of ground calcium carbonate for polymer and coating applications.

Omya AG (Switzerland) is another major company in the calcite market. It has been adopting organic and inorganic strategies to sustain its position in the market. For instance, in November 2018, the company established a research center for crop cultivation at Oftringen. It undertakes studies through the systematic analyses of natural calcium carbonate in agriculture. Insights gained at the center have proven valuable for the development of new products and innovative technologies for agriculture. In November 2018, Omya AG introduced a new functionalized calcium carbonate for use in biopolymers under the brand name, Omya Smartfill 55– OM. The new calcium carbonate is used particularly as filler material for polylactic acid (PLA) as this does not demonstrate almost any hydrolysis when processed at filler loads of up to 40%

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MarketsandMarkets’s flagship competitive intelligence and market research platform, "Knowledgestore" connects over 200,000 markets and entire value chains for deeper understanding of the unmet insights along with market sizing and forecasts of niche markets.

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Neuroendovascular Coil Market: Global Company Trends, Analysis and Growth 2019 – 2027

The global Neuroendovascular Coil Market has been divided into product types, indications, end users, and geographical segments. The market has been divided into two types of products: Guglielmi Detachable Coils (GDC) and Matrix coils. The platinum Guglielmi detachable coil is composed of. Biopolymer-coated matrix coils and hydrogel-coated matrix coils are the two types of matrix coils. Matrix coils are more effective than Guglielmi detachable coils and are in high demand. 

The worldwide Neuroendovascular Coil Market is divided into ruptured and unruptured aneurysms based on the indication. Hospitals, stroke centres, and ambulatory surgery clinics are among the end users of neuroendovascular coils. Hospitals are further divided into three categories: hospitals with 500 or more beds, hospitals with 250 to 499 beds, and hospitals with less than 250 beds. Alternatives to neuroendovascular coils, such as stents, liquid agents, and flow diversion devices, are expected to slow the global neuroendovascular coil market's growth. For example, Stryker Corporation's latest Neuroform Atlas Stent System for the treatment of broad neck aneurysms was approved by the US Food and Drug Administration in 2017.

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