Microencapsulation Market: Current Analysis and Forecast (2024-2032)

According to a recent industry report by UnivDatos Market Insights, the global Microencapsulation market is projected to reach USD 34,769.03 million by 2032, growing at a CAGR of 11.84% from 2024 to 2032.

BASF SE is a prominent chemical company that deals in microencapsulation and has been responsible for spearheading sustainable and innovative solutions that meet the needed changes in the different industries. BASF currently stands by the company’s environmental policy and has and is continually investing in research and development in microencapsulation technology with an aim of producing and supplying high-quality value-added products to customers without harming the environment.

EMBRACING SUSTAINABILITY AND CLEAN LABEL TRENDS

BASF offers a comprehensive portfolio of microencapsulation solutions tailored to the diverse needs of industries such as pharmaceuticals, food and beverages, personal care, agrochemicals, and textiles. These solutions are meticulously developed using advanced technologies and sustainable practices, ensuring superior performance, versatility, and environmental responsibility.

ELEVATING MICROENCAPSULATION PERFORMANCE THROUGH CUTTING-EDGE SOLUTIONS

Bio-Based Encapsulation Materials: BASF has also expanded greatly on methods of producing encapsulation materials from biological materials including plant derivatives and agricultural waste. Bio based solutions were developed by BASF in the same year with an innovation in bio-based encapsulation system for cosmetics and personal care products using sustainably grown crops and bio technological processing. The tested bio-based encapsulation material has the same efficiency as the petroleum based one but opens a possibility to minimize the use of fossil fuel and emissions. For instance, in January 2023, BASF SE, specializing in the microencapsulation of vitamins, developed a unique microencapsulation method for the vitamin A and D powders used in flour and sugar fortification, which delivers best-in-class stability.  Recently, BASF has developed BHT-free vitamin A to fortify flour and sugar. It is a vitamin A palmitate powder that can be applied directly or through pre-mixes. Technical studies show the superior stability of this BHT-free vitamin A powder compared to other BHT-free vitamin A powders on the market

Advanced Formulation Technologies: BASF remained proactive in creating new microencapsulation products, but it has also endeavored to optimize the effectiveness and functionality of existing ones through formulation enhancements. Such modifications have led to new developments of microencapsulation chemistries with improved stability, compatibility and efficiency in various applications and suitable to meet the customer needs and wants of today’s consumers.

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Collaborative Partnerships: At the heart of this strategy, the company actively works with customers, other industries, and research organizations to ensure joint commitment to finding solutions for various problems impacting the microencapsulation market. Thus, creating long-term partnerships in BASF could unite all available and potential knowledge and experience to develop specific approaches and offers corresponding to customer needs and market tendencies. For example, the partnerships between BASF and many well-known cosmetic manufacturers extend to the joint development of new humectant systems that exhibit better performance and differentiation in terms of their feel. For instance, in 2023, BASF, alongside a leading company for natural cosmetics, has partnered with Indonesian non-profit organization Kaleka to support the sustainable management of palm and palm kernel oil production in Indonesia.

CONCLUSION

BASF's unwavering commitment to innovation and collaboration positions it as a pioneer in the microencapsulation market. BASF continues to drive positive change and shape the future of microencapsulation technology through its relentless pursuit of excellence and dedication to customer satisfaction. As the demand from various industries such as pharma, agrochemicals, home and personal care, food and beverages continue to grow, BASF remains at the forefront of innovation, empowering customers to create products that meet the highest performance, sustainability, and consumer satisfaction standards. driven by driven by the growing demand for the functional and encapsulated ingredients, advancements in technology, and rising awareness about health and wellness globally.

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The microencapsulation market size is estimated at USD 15.38 billion in 2024 and is projected to reach USD 24.07 billion by 2029, at a CAGR of 9.4% from 2024 to 2029. The growth of the microencapsulation market is mainly driven by technological advancements and increased usage in various sectors.

https://www.maximizemarketresearch.com/market-report/global-microencapsulation-market/598/

Microencapsulation Market is expected to reach US$ 25.18 Bn. by 2029, at a CAGR of 12.9% during the forecast period.

Microencapsulated Pesticides Market - Forecast(2024 - 2030)

Microencapsulated Pesticides Market Overview

Microencapsulated Pesticides market size is forecast to reach US$520.9 million by 2026, after growing at a CAGR of 8.3% during 2021-2026. Pesticides with a protective layer over the active ingredient are known as microencapsulated pesticides. The controlled release technique is used to boost the efficiency of pesticides by microencapsulating them. High implementation of integrated pest management programs across the globe is one of the key factors due to which the market is anticipated to accelerate during the forecast year. Also, the increasing requirement for pesticides that are efficient in insect control is expected to bolster the growth of the encapsulated pesticides market over the coming years. In addition, growing innovative and advanced developments in the agrochemicals industry for protecting the crops is positively influencing the market growth.

COVID-19 Impact

During the global pandemic, Covid-19, the agricultural sector's demand decreased due to various economic restrictions and regulations. Due to these strict lockdown measures, many pesticides units had to stop their production process, which restricted the microencapsulated pesticides market growth in 2020. In addition, due to the outbreak, the production and export of fruits and vegetables decreased, owing to which the demand for microencapsulated pesticides also decreased, causing a significant decline in the microencapsulated pesticide’s market revenue. Furthermore, because of the covid-19 epidemic, the production, consumption, imports, and exports of microencapsulated pesticides were also hindered. These multiple consequences of the covid-19 pandemic stretched the troubles for the microencapsulated pesticides market in 2020. However, the demand for microencapsulated pesticides is set to improve by the year-end of 2021, owing to the boosting agricultural sector.

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Report Coverage

The report: “Microencapsulated Pesticides Market – Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the Microencapsulated Pesticides Industry.

By Type: Insecticides, Herbicides, Fungicides, and Others.

By Technology: Physical (Spray Drying, and Others), Physico-Chemical (Coacervation, and Others), Chemical (Interfacial Polymerization, and Others).

By Application: Agriculture (Grains & Cereals, Fruits & Vegetables, Pulse & Oil Seed, Plantation Crops, and Others), Non-Agriculture (Industrial & Commercial, Residential, and Livestock).

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

Key Takeaways

Europe dominates the microencapsulated pesticides market, owing to the increasing agricultural sector in the European region. The increasing per capita income and evolving lifestyle of individuals coupled with the rising population are the major factors expanding the agriculture sector in Europe.

The pressure to use pesticides and the belief of farmers that they are very necessary for agriculture production is one of the supportive facts fueling the demand for microencapsulated pesticides in this region.

The microencapsulated pesticides are in the introduction period as very few international players are offering such products. Also, these pesticides are very costly than conventional one. Due to which market penetration will hinder in coming years.

Microencapsulated Pesticides Market Segment Analysis – By Type

The insecticide segment held the largest share in the microencapsulated pesticides market in 2020 up to 57% by revenue and is estimated to grow at a CAGR of 8.6% during 2021-2026. Microencapsulated insecticides are used to control agricultural pest insects such as beet armyworm and sap-sucking small insects’ aphids, an insect and a member of the superfamily Aphidoidea. Some formulations of microencapsulated insecticides include a wall comprising of a polymer, for instance, by interfacial polycondensation of a water-soluble monomer and a water-insoluble monomer, which partially surrounds an organophosphate insecticide. These formulations work effectively against both chewing and non-chewing pests such as mice or rats. Microencapsulated insecticides contain chlorpyrifos, an organophosphate pesticide, which is used to control foliage and soil-borne insect pests on various feed crops and food crops. Therefore, the advantages of using microencapsulated insecticides such as effectiveness, sprayable form, and others will further increase the demand for microencapsulated insecticides during the forecast period.

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Microencapsulated Pesticides Market Segment Analysis – By Technology

The physical segment held the largest share in the microencapsulated pesticides market in 2020 and is forecasted to grow at a CAGR of 8.7% during 2021-2026. The physical segment of the microoperation technique involves spray drying technology, freeze-drying, and extrusion techniques. These techniques involve the manual creation of microcapsules used in agriculture, pharmaceutical, and other related industries. It involves the physical implantation of the active ingredient of specific pesticides into the polymer/resin coating of the microcapsule. Under this technology, the shell formation depends on solid-liquid phase transition under heating or solubility reduction due to solvent evaporation. The physical process of forming a microcapsule involves the technique by which solid particles, liquid droplets, and gaseous compounds are entrapped into thin films of agricultural/pharmaceutical/food-grade microencapsulating agents. Some of the primary techniques used in physical microencapsulation technology are fluid bed/pan coating, centrifugal extrusion, spinning desk microencapsulation, and vibrating nozzle.

Microencapsulated Pesticides Market Segment Analysis – By Application

The agriculture segment held the largest share of 63% by revenue in the microencapsulated pesticides market in 2020. Microencapsulation of pesticides, fertilizers, and various other agrichemicals allows the users to precisely control the conditions under which the active ingredient is released. Microencapsulation in agriculture helps in the controlled release of crop protection products. Therefore, the microcapsules can be designed with appropriate triggers for maximum efficiency. Microencapsulation in agriculture helps in reducing environmental impact, as the content in the microcapsule is protected until conditions are right for being released. Further, microencapsulation in agriculture also helps in increased stability for biopesticides. Encapsulation can help in increasing the shelf stability of bioactive compounds and other living organisms such as bacterial spores. Therefore, owning to these factors, its use in the agriculture sector is increasing.

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Microencapsulated Pesticides Market Segment Analysis – By Geography

Europe held the largest share in the microencapsulated pesticides market in 2020 up to 35% by revenue, owing to the flourishing agriculture industry in the region. For instance, according to the data published by Eurostat, in 2019 European region produced approximately 131.8 million tons of common wheat & spelt, 70.1 million tons of grain maize & corn-cob mix, 55.6 million tons of barley, 7.0 million tons of oats, and 8.7 million tons of Rey & maslin. In 2018 European region produced approximately 115.6 million tons of common wheat & spelt, 69 million tons of grain maize & corn-cob mix, 50.1 million tons of barley, 6.9 million tons of oats, and 6.5 million tons of Rey & maslin. According to the European Commission, barley production increased from euro 1,843 million (US$ 2176.50 million) in 2018 to euro 1,911 million (US$2,139.31 million) in 2019 in France. According to the European Commission, in Spain, grain maize production increased to euro 708 million (US$792.58 million) in 2019 as compared to euro 668 million (US$788.87 million) in 2018. Thus, there is a substantial rise in the demand for microencapsulated pesticides in the region, owing to the flourishing agriculture industry in the European region.

Microencapsulated Pesticides Market Drivers

Various Advantages Associated with Microencapsulated Pesticides

Pesticides have varying degrees of health hazards in the pesticides industry, ranging from respiratory exposure to skin penetration, unsafe handling of high viscosity liquid pesticides, and hazardous organic solvents used in the formulation of pesticides. Considering all these drawbacks, microencapsulation techniques are the most efficient way to overcome these drawbacks due to their important advantages. To achieve safety, environmental, and economic benefits, it is critical to select the best encapsulating agent and calculate the process stoichiometry during the manufacturing process. Thus, the safety of the pesticides is improved considerably by microencapsulation due to hazard and exposure reduction, owing to which its adoption is increasing significantly. In addition, traditional liquid pesticide application methods have several disadvantages that microencapsulated pesticides do not. For instance, because microencapsulated plastic polymer coatings help protect the applicator from pesticide exposure, highly toxic chemicals can be mixed and handled safely. Microencapsulation prolongs the effectiveness of the active ingredient by delaying its release, resulting in fewer and less precisely timed applications. There are also other benefits included such as reduced volatility, making it so less is lost from the application site, perform well on both porous and nonporous surfaces, allows for increased effectiveness, reduced odor, a lower likelihood of staining or otherwise damaging treated surfaces, and less phytotoxicity injury to plants. Thus, these advantages associated with microencapsulated pesticides are set to increase the demand for microencapsulated pesticides in the agriculture sector, and further drive the microencapsulated pesticides market growth during the forecast period.

Increase in Demand from the Building and Construction Sector

The increasing growth in the building and construction industry in recent years is further increasing the need for repair and maintenance activities to retain and maintain the health and outlook of the building. According to Global Construction Perspectives and Oxford Economics, the global building and construction industry is estimated to earn a revenue of $15.5 trillion by the year 2030, eventually driving the need and demand for the microencapsulated pesticides market. Various microencapsulated pesticides such as fungicides and miticides are used in the building and construction sector for protection against fungus and mites or ticks. Wood mites occur often on articles of wood, such as furniture, fixtures, cupboards, and other wooden products. Wood mites tend to destroy wooden products by eroding and filtering into the articles. Therefore, microencapsulated miticides are widely used in these situations for protection against mites. Furthermore, fungus tends to get deposited in places like indoor swimming pools, restrooms, bathtubs, shower areas, bathroom walls, bathroom floors, kitchen sinks, wash areas, and other places where there is constant exposure to water. Therefore, microencapsulated fungicides are applied in such places to eradicate fungus and also decrease the future occurrence of such pests. Furthermore, other microencapsulated pesticides such as microencapsulated nematicides are used for killing plant-parasitic nematodes and plant parasites that feed on microorganisms living in water and soil. Therefore, the increase in the growth of the building and construction sector coupled with the increase in the need for maintenance of the building for health and safety purposes will further increase the demand for the microencapsulated pesticides market. This will further increase the demand for the microencapsulated pesticides market during the forecast period.

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Microencapsulated Pesticides Market Challenges

The High Manufacturing Cost of Microencapsulated Pesticides

The production of microencapsulated pesticides is particularly difficult for agricultural and non-agricultural applications due to the high costs of the technique, which may make the final product prohibitively expensive. Also, due to this high price the consumers prefer conventional synthetic pesticides over microencapsulated ones as synthetic pesticides are cheaper than microencapsulated pesticides. The cost of microencapsulation varies greatly and is largely determined by the technique used. Some techniques necessitate the use of specialized equipment, while others don't. For procedures, some methods have used expensive chemicals, while others have used very inexpensive materials. Heat-intensive processes are frequently more expensive than those that do not. To produce a "dry" product, continuous phase removal necessitates an additional processing step, which adds to the cost. Some goods, particularly those with a high value or low volume, are better able to absorb such a cost increase. As a result, it's critical to use one of the less expensive techniques to encapsulate high-volume products or those with a low-profit margin. Thus, due to the involvement of various costly techniques towards the manufacturing of microencapsulated pesticides, the production cost of microencapsulated pesticides significantly increases, as a result of which the price of microencapsulated pesticides also increases, which pose a significant challenge for the microencapsulated pesticides market.

Microencapsulated Pesticides Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the Microencapsulated Pesticides market. Major players in the Microencapsulated Pesticides market are:

Syngenta AG

Bayer Crop Science LLC

Adama Agriculture Solutions

BASF Chemical Company

FMC Corporation

Corteva Agriscience

UPL Chemical Industry Company

Insecticides India Limited

Nufarm Chemicals Company

McLaughlin Gormley King Company

Reed Pacific Specialty Chemicals

MikroCaps

Acquisitions/Technology Launches

In January 2020, Corteva acquired Eden’s Sustaine encapsulation technology and various formulations in biological seed treatment applications. 

In May 2019, BASF launched Seltima, an innovative fungicide that supports the efficient production of high-quality rice, for farmers in Thailand.

Global Microencapsulated Pesticides Market was valued at USD 378.5 billion in 2021 and is expected to reach USD 747.03 billion by the year 2028, at a CAGR of 10.2%.

Microencapsulated Pesticides Market- Global Demand & Analysis | IMR

Microencapsulation Market: Current Analysis and Forecast (2024-2032)

According to the UnivDatos Market Insights analysis, growing partnership between the companies and the growing pharmaceutical industry will surge in demand for the Global Microencapsulation market, which will drive the global scenario of the “Microencapsulation Market” report; the global market was valued at USD 12,624.52 million in 2023, growing at a CAGR of 11.84 % during the forecast period from 2024 - 2032 to reach USD 34,769.03 million by 2032.

The global microencapsulation market is experiencing a surge in demand, driven by the growing application of the pharmaceutical, food and beverage, and home and personal care industry. Microencapsulation has proven an effective tool in creating novel food products with numerous functional properties. This technology has been widely used in commercial products like juices, chocolates, meat, and poultry.

Catering to Evolving Consumer Demands

The spotlight has been shifted more and more toward the components of the manufactured products and socially responsibly consumption, plant-based products are popular. This trend has been especially evident in the application of food and beverage, personal care products, and pharmaceuticals because microencapsulation is often environmentally sensitive or has to be released slowly. The beverage industry has played a significant role in the growth of microencapsulation, mostly in the coffee industry. For instance, in 2023, 32% of the coffee consumed out of home was cold, the equivalent of 1 in every 3 cups. This segment is one of the fastest growing in the coffee industry, with a 15% consumption increase in the past four years1. Younger generations, in particular, have embraced the trend of drinking their coffee cold, and the rise of specialty coffee shops and cafés offering a wide range of cold coffee options has contributed to making it accessible and appealing to consumers.

Nescafe has launched a new product called Nescafé Espresso Concentrate, which is designed to capture the out-of-home cold coffee experience and bring it into consumers' homes. The premium liquid coffee concentrate aims to provide barista-style personalized iced coffees in a convenient, simple, and customizable way.

In 2021, AnaBio has launched a range of encapsulated probiotic strains, including well-established Bifidobacterium and Lactobacillus species, which can survive temperature stresses associated with UHT processing. Additionally, the company offers encapsulated antioxidant ingredients and omega-3 oils.

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Technological Advancements and Investments

The microencapsulation market has seen a significant change in the last couple of years due to advancements in technology. As the demand for its applications continues to become wider from the various industries, manufacturers are exploring to develop innovative and efficient solutions. For instance, Incaptek Innovative Technologies has developed cutting-edge microencapsulation technology to produce programmed-shell microcapsules with controlled and targeted release functions. The company coaxial electrospray technology combines the best of the available microencapsulation techniques. It is as advanced as microfluidics, but with regard to production volumes and costs, it is in the same range as spray-drying and microemulsification. Furthermore, Companies are expanding their partnership to gain the competitive edge in the market and fulfill the demand of industries. Several partnerships have been seen in the past few years. For instance, in 2023, BASF and Cargill further expand their partnership to offer high-performance enzyme solutions to animal protein producers in the United States. By combining the enzyme research and development strengths of BASF with Cargill’s know-how in application and broad market reach, the partners will form a joint innovation pipeline for animal protein producers.

Conclusion

In conclusion, the global microencapsulation market is experiencing a transformative phase driven by the growing application in pharmaceutical, food and beverage, home and personal care industries. Consumers’ preferences have evolved over time and regulatory bodies have tightened their frame works. Manufacturers are bound to explore new and innovative solutions by forming strategic partnerships, acquisitions, and launching innovative products to meet the changing demands of the customers.

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Microencapsulation Market Global Outlook, Trends, and Forecast

The microencapsulation market size, valued at USD 15.38 billion in 2024, is projected to reach USD 24.07 billion by 2029, growing at a CAGR of 9.4% over the forecast period. With rising demand across pharmaceuticals, food, and personal care sectors, the market is transforming how products are designed and delivered for enhanced efficacy and consumer experience.

Pharmaceutical Innovations: Enhanced Drug Delivery and Patient Compliance

In the pharmaceutical industry, microencapsulation enables controlled drug delivery, allowing active ingredients to be released at specific times and locations within the body. This technology reduces potential side effects and improves patient adherence by enhancing treatment effectiveness. By encapsulating drugs in protective coatings, sensitive ingredients are shielded from degradation, preserving their potency until the moment they are needed within the body.

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Functional Foods: Catering to Health-Conscious Consumers

With health awareness on the rise, consumers are seeking more than just basic nutrition from their food. Functional foods fortified with essential nutrients like vitamins, minerals, and probiotics are gaining popularity, and microencapsulation plays a vital role in this trend. By protecting ingredients such as omega-3 fatty acids from oxidation, microencapsulation extends the shelf life of these functional foods, making them more accessible and reliable.

One example of this trend is the launch of Humiome B2 by DSM-firmenich in May 2024, the first biotic vitamin that uses Microbiome Targeted Technology™ to deliver vitamin B2 directly to the colon. This approach enhances bioavailability and supports gut health, showcasing how microencapsulation can promote holistic wellness through targeted nutrient delivery.

Asia Pacific: A Fast-Growing Market for Microencapsulation

APAC microencapsulation market is expected to lead the global market growth from 2024 to 2029, driven by an increasing demand for fortified food and beverages in countries like China, India, and Japan. As health awareness rises, so does the demand for improved nutrient stability and bioavailability, making microencapsulation essential in regional food and beverage markets. Furthermore, the pharmaceutical and cosmetics industries are thriving in Asia Pacific, fueling the demand for controlled release formulations and enhancing regional market growth.

Government incentives for local production, along with investments in innovation, are attracting major industry players to establish R&D and manufacturing facilities in the region. BASF SE, for example, expanded its Innovation Campus Shanghai in 2021, with a USD 296.8 million investment to drive research and collaboration, further advancing microencapsulation technologies.

Dripping Technology: Revolutionizing Encapsulation

The dripping method has gained momentum within the microencapsulation market due to its versatility in encapsulating a wide range of active ingredients, from flavors to nutrients and fragrances. This technique supports large-scale production and allows companies to meet demand in food, pharmaceutical, and personal care markets.

Recent advancements in dripping technology include the development of biodegradable components, fostering sustainable practices. These innovations respond to consumer demand for eco-friendly products and drive growth in industries where sustainability and efficacy are paramount.

The microencapsulation market growth is spurred by consumer demand for functional foods, innovative pharmaceutical applications, and personal care products. With advancements in encapsulation technologies like spray drying and coacervation, production has become more efficient and cost-effective, making microencapsulation accessible to a wider range of industries. As companies continue to innovate and expand into emerging markets, the microencapsulation industry is set to play a critical role in shaping the future of health-conscious and sustainable product development.

Key Microencapsulation Leaders

BASF (Germany)

FrieslandCampina (Netherlands)

DSM-firmenich (Switzerland)

Givaudan (Switzerland)

International Flavors & Fragrances Inc. (US)

Sensient Technologies Corporation (US)

Microencapsulation Industry Trends

· Rise in Functional Foods: Demand for health-focused foods drives microencapsulation for vitamins and probiotics, enhancing stability and shelf life.

· Pharma Advancements: Controlled drug release and biodegradable polymers are boosting microencapsulation in pharmaceuticals for targeted delivery.

· Agricultural Applications: Precision agriculture benefits from encapsulated pesticides and fertilizers, offering controlled release and reduced environmental impact.

· Cosmetics Innovation: Microencapsulation in personal care products enables sustained release of fragrances and active ingredients, meeting consumer demand for longevity.

· New Materials & Nanocapsulation: Innovations in encapsulation materials and nanocapsulation techniques enhance absorption and stability, especially in food and pharma.

Microencapsulated Pesticides Market 

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Pesticides with a protective layer over the active ingredient are known as microencapsulated pesticides. The controlled release technique is used to boost the efficiency of pesticides by microencapsulating them.