What is an Automatic Titrator? 

An automatic titrator is a laboratory instrument designed to automate the process of titration. It is a quantitative chemical analysis technique used to determine the concentration of a specific substance within a sample. Majorly, such a process carries on in industries that deal with liquid handling equipment. 

How Does an Automatic Titrator Work?

Sample Preparation: The sample is prepared and placed in a suitable vessel, such as a beaker or flask.

Titrant Delivery: A precise volume of titrant, a solution of known concentration, is dispensed into the sample using an electronic burette.  

Endpoint Detection: The titrator monitors the reaction between the titrant and the analyte in the sample. This can be done using various methods, including:

Potentiometric Titration: Measures the change in electrical potential as the titration progresses.  

Conductometric Titration: Measures the change in electrical conductivity of the solution.  

Photometric Titration: Measures changes in light absorption or scattering.  

4. Endpoint Determination: The titrator automatically stops the titration when the endpoint is reached, which is the point at which the reaction is complete.

5. Data Analysis: The titrator calculates the concentration of the analyte based on the volume of titrant used and the known concentration of the titrant.  

Advantages of Automatic Titrators:

Increased Accuracy and Precision: Automatic titrators eliminate human error associated with manual titrations, leading to more accurate and precise results.  

Improved Efficiency: Automation significantly reduces the time required for titration, increasing laboratory productivity.  

Enhanced Safety: Automatic titrators minimize the risk of exposure to hazardous chemicals by reducing manual handling.  

Data Integrity: The instruments can automatically record data, ensuring accurate and reliable results.  

Versatility: Automatic titrators can be used for a wide range of applications, including acid-base titrations, redox titrations, complexometric titrations, and more.  

By automating the titration process, E-Burettes offer numerous benefits to laboratories, including increased efficiency, improved accuracy, and enhanced safety.

Microlit Motorized Burette for Accurate Lab Titration

Discover the pinnacle of precision in laboratory titration with the Microlit Motorized Burette. This cutting-edge digital electronic burette, equipped with a user-friendly TFT touchscreen stylus, sets the standard for accuracy.

Types of Laboratory Apparatus

Laboratory Apparatus, In the dynamic world of scientific exploration, laboratories serve as the crucibles of innovation and discovery. Central to these hubs of knowledge are various laboratory apparatus, each designed for specific tasks to unlock the secrets of the universe. In this exploration, we will delve into the diverse types of laboratory apparatus, shedding light on their roles and significance in the pursuit of scientific understanding.

Beakers and Flasks: The Workhorses of Experimentation

Beakers and flasks are the stalwarts of any laboratory apparatus, serving as vessels for mixing, measuring, and holding liquids. Beakers, with their cylindrical shape and wide mouth, are ideal for stirring and pouring liquids. On the other hand, flasks, often with a narrower neck, are used for reactions that involve the release of gases, ensuring controlled containment.

Test Tubes and Culture Tubes: Homes of Microcosmic Reactions

Another laboratory apparatus is test tubes, characterized by their slender and elongated shape, are iconic symbols of laboratories. They are employed for small-scale reactions, heating substances, and observing chemical changes. Culture tubes, with a similar design, are tailored for microbial and cellular cultures, facilitating the growth and study of microorganisms.

Pipettes: Precision in Volume

Precision in measuring and transferring small volumes of liquids is the forte of pipettes. Available in various types, including micropipettes and volumetric pipettes, these instruments ensure accuracy in experiments where even a slight deviation can lead to significant errors. Pipettes are indispensable in fields like biology, chemistry, and medical research.

Burettes: The Graduated Flow of Precision

When precise measurement and control of liquids are paramount, burettes step into the limelight. These long, graduated tubes with a stopcock at the bottom allow for meticulous titrations, where the volume of a solution is precisely determined while reacting with another solution. Burettes are vital tools in analytical chemistry, ensuring accuracy in concentration calculations.

Microscopes: Unveiling the Microcosm

Microscopes open windows to the unseen world, enabling scientists to explore the microscopic realms. Light microscopes use visible light to magnify specimens, while electron microscopes employ electron beams for even higher magnification. Microscopes are foundational in fields like biology, medicine, and materials science, revolutionizing our understanding of cellular structures and tiny organisms.

Centrifuges: Separating Forces in a Spin

Centrifuges harness centrifugal force to separate components within a liquid sample based on their density. Commonly used for separating blood components in medical laboratories, centrifuges find applications in various scientific disciplines, including biochemistry and molecular biology. Different types of centrifuges, such as ultracentrifuges and microcentrifuges, cater to specific needs of researchers.

Incubators: Nurturing Growth in a Controlled Environment

Incubators recreate specific environmental conditions to foster the growth of cultures, cells, or microorganisms. They provide a controlled setting for experiments requiring constant temperature, humidity, and CO2 levels. Incubators play a crucial role in biological and medical research, ensuring optimal conditions for cell cultures and experiments.

Autoclaves: Sterilizing for Safety

Sterilization is a non-negotiable aspect of laboratory work, particularly in microbiology and medical research. Autoclaves, using high-pressure steam, eliminate bacteria, viruses, and other contaminants from laboratory equipment and materials. This ensures a sterile environment for experiments and prevents cross-contamination.

Spectrophotometers: Quantifying the Spectrum

Spectrophotometers measure the intensity of light absorbed or transmitted by a sample at different wavelengths. Widely used in chemistry and biochemistry, these instruments provide valuable data about the composition and concentration of substances. Spectrophotometers play a pivotal role in quantifying DNA, proteins, and various chemical compounds.

Ovens and Furnaces: Heat for Transformation

For experiments requiring precise temperature control and heat application, ovens and furnaces step in. These apparatus are crucial for processes like drying, sterilization, and material synthesis. Furnaces, capable of reaching higher temperatures, find applications in metallurgy, ceramics, and material science.

PH Meters: Gauging Acidity and Alkalinity

The acidity or alkalinity of a solution is a fundamental parameter in many scientific investigations. pH meters provide an accurate measure of the hydrogen ion concentration in a solution, allowing researchers to monitor and control the acidity or alkalinity of their experimental environments. These instruments are indispensable in fields like chemistry, biology, and environmental science.

Chromatography Systems: Separating Mixtures with Precision

Chromatography is a versatile technique employed to separate and analyze complex mixtures. Gas chromatography, liquid chromatography, and thin-layer chromatography are among the various chromatography systems used in laboratories. These systems are vital for applications ranging from pharmaceutical analysis to environmental monitoring.

In Conclusion of type of laboratory apparatus :

The laboratory apparatus discussed here represents the diverse tools that scientists and researchers wield in their quest for knowledge and discovery. Each instrument plays a specific role, contributing to the intricate tapestry of scientific exploration. As technology continues to advance, new and innovative laboratory apparatus will undoubtedly emerge, further enriching the capabilities of laboratories worldwide. In the grand symphony of scientific inquiry, these apparatus stand as the instruments that harmonize to unveil the secrets of the natural world.

1. Precise and accurate. This laboratory instrument is designed with an advanced spring mechanism for unimpeded movement. It provides clear, smooth liquid release with high precision.

2. Ergonomic and intuitive operation. Transfer liquids with ease with our lightweight micropipettes. Its large grip provides a great grip. In addition to the soft grip, our laboratory pipettes have a soft plunger for increased user comfort when pipetting for extended periods of time.

3. Clean, reliable results. Our laboratory pipettes are half autoclavable at 121°C and 15 PSI for 10-15 minutes. They ensure maximum sterilization to prevent any cross-contamination in precision laboratory applications.

4. Complete packaging. Each pipette box includes a calibrated micropipette, 1-2 compatible pipette tips, calibration tools, ISO 8655 calibration certificate (valid for 1 year), micropipette holder and complete user manual .

5. Quality History. With more than 30 years of experience in the life science industry, SHENGCHUANG has created reliable products such as micropipettes, bottle top dispensers, electronic burettes and other laboratory instruments and equipment used by professionals in over 45 countries .

Liquid Handling System Market Research Report

Liquid Handling System Market, by Type (Electronic, Automated, Manual), Product (Pipette, Consumables, Workstation, Microplate Dispensers, Burette), Application (Drug Discovery, Genomics, Clinical Diagnostics, Proteomics) and Geography (North America, Europe, Asia-Pacific, Middle East and Africa and South America)

The global Liquid Handling System market size is projected to reach USD 5.2 billion by 2026 at a CAGR of 9% from USD 3.2 billion in 2021 during the forecast period 2021-2028.

Liquid Handling System contains a variety of devices which are used to perform various liquid Handling activities. It is used for the automation of various processes such as dispensing the reagent, addition of desired quantity of fluid to a container etc. These are able to transfer liquid in very small volumes like micro or nano litre level without any error. There are various types of liquid handling system based on the amount of volume to be dispensed. These range from a modernized syringe or pipette.

Due to the recent expansion and growth of global pharmaceutical market along with the increased focus on data precision and the technological advancement in the sector are some of the factors that have supported long-term expansion for Liquid Handling System Market.

The COVID-19 pandemic is causing widespread concern and economic hardship for consumers, businesses, and communities across the globe.

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Key Players

Danaher Corporation  

Thermo Fisher Scientific Inc.  

Eppendorf AG  

Tecan Group Ltd.  

Gardner Denver Medical

Mettler-Toledo International Inc.  

Hamilton Company  

PerkinElmer,  Inc.  

Sartorius AG  

Corning Incorporated  

Gilson  Inc.  

Agilent Technologies  Inc.  

Qiagen N.V.  

Lonza Group Ltd  

Brooks Automation  Inc.  

Integra Holding AG  

Endress+Hauser AG  

Labcyte Inc.  

BioTek Instruments  Inc.  

TTP Labtech Ltd  

Metrohm AG  

BRAND GMBH + CO KG  Tomtec  Inc.  

Hudson Robotics  Inc.

Orochem Technologies Inc.

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Increase your understanding of the market for identifying the best and suitable strategies and decisions on the basis of sales or revenue fluctuations in terms of volume and value, distribution chain analysis, market trends and factors

Gain authentic and granular data access for Liquid Handling System market so as to understand the trends and the factors involved behind changing market situations

Qualitative and quantitative data utilization to discover arrays of future growth from the market trends of leaders to market visionaries and then recognize the significant areas to compete in the future

In-depth analysis of the changing trends of the market by visualizing the historic and forecast year growth patterns

Report Scope

Liquid Handling System Market is segmented into type, product, application and geography.

On the basis of Type

Electronic

Automated

Manual

On the basis of Product

Pipettes

Electronic

Manual

Semi-automated

Consumables

Disposable tips

Tubes & plates

Reagent containers

Other consumables

Microplate reagent dispensers

Liquid handling workstations

Burettes

Microplate washers

Software

Other products

On the basis of Application

Drug discovery

HTS

Compound weighing and dissolution

ADME screening

Other drug discovery applications

Genomics

Genotyping

NGS

PCR

DNA/RNA purification

Other genomics applications

Clinical diagnostics

Sample preparation

ELISA

Other clinical diagnostics applications

Proteomics

Other applications

On the basis of Region

Asia Pacific

North America

Europe

South America

Middle East & Africa

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Liquid Handling Systems Market Worth $6.99 Billion by 2029 – Exclusive Report by Meticulous Research®

According to a new market research report, ‘Liquid Handling Systems Market By Type (Automated, Electronic, Manual), Product (Pipette, Consumables, Burette, Software, Microplate), Application (Drug Discovery, Cancer & Genomics, Clinical), End User (Hospital, Diagnostic Lab) – Global Forecast to 2029,’ published by Meticulous Research®, the liquid handling systems market is projected to reach $6.99 billion by 2029, at a CAGR of 6.4% from 2022 to 2029.

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A liquid handling system involves any equipment used for transferring liquids in a laboratory from a pipette to the multifunction workstation. Liquid handling is usually required in the laboratory for various applications such as ELISA, nucleic acid preparation, PCR reaction, next-generation sequencing for genomic research, and liquid-liquid extraction. Liquid handling systems are crucial in increasing laboratory procedures requiring high-throughput screening.

Major factors driving the liquid handling systems market are the rapid growth and expansion of the pharmaceutical & biotechnology industry, increasing R&D expenditure of biopharmaceutical companies, rapid adoption of automation in laboratories, and growing demand for high-throughput screening. Furthermore, emerging economies and growing genomics and proteomics research are expected to provide significant growth opportunities for this market.

However, the high costs of automated liquid handling systems are expected to restrain the growth of this market to a notable extent. In addition, factors such as the slow adoption of automation among small & medium-sized laboratories and additional training required by the laboratory personnel for operating automated robotic liquid handling workstations are the major challenges to the growth of this market.

The Impact of COVID-19 on the Liquid Handling Systems Market

The coronavirus disease (COVID-19) outbreak in March 2020 impacted nearly every country around the globe. According to the WHO, as of 17th November 2022, there were 633.2 million confirmed cases and 6.6 million confirmed deaths. During the initial months of the pandemic, there were nationwide lockdowns and restrictions in several countries. This led to a global supply chain disruption and shortages of equipment & consumables. Further, according to the International Monetary Fund, the pandemic shrunk the global economy by about 3.5% in 2020. These factors had a short-term negative impact on the global liquid handling systems market.

However, due to the pandemic, there was an increased demand for COVID-19 testing in laboratories. Large volumes of samples were to be tested, and liquid handling systems were a crucial part of performing these tests. This led to an increased demand for liquid handling systems in clinical diagnostics laboratories. In addition, there was an increased demand for drug discovery and vaccine development. The demand for various types of liquid handling systems in pharmaceutical and biotechnology companies also increased. Thus, the COVID-19 pandemic ultimately had a positive impact on the liquid handling systems market.

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The liquid handling systems market is segmented by Type (Automated Liquid Handling Systems, Electronic Liquid Handling Systems, and Manual Liquid Handling Systems), Product (Pipettes [Semi-Automated Pipettes, Manual Pipettes, and Electronic Pipettes], Consumables, Liquid Handling Workstations, Burettes, Software, Microplate Reagents Dispensers, Microplate Washers, and Other Products), Application (Drug Discovery, Cancer & Genomics Research, Clinical Diagnostics, and Other Applications), End User (Hospitals & Diagnostic Laboratories, Biotechnology & Pharmaceutical Industries, Research & Academic Institutes, and Other End Users), and Geography. The study also evaluates industry competitors and analyzes their market share at global and regional levels.

Based on type, in 2022, the automated liquid handling systems segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to factors such as the increased demand for high-throughput screening, the advantages of automated liquid handling systems, and the increased capabilities of end users to acquire advanced automated liquid handling systems.

Based on product, in 2022, the pipette segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to the basic utility of pipettes in the liquid handling process and its applicability in a wide range of applications such as in sample preparation, serial dilution, and various types of assays.

Based on application, in 2022, the drug discovery segment is expected to account for the largest share of the liquid handling systems market. This segment’s large market share is attributed to the high demand for newer personalized drugs for treating a wide range of diseases, increased R&D expenditure, and increased focus on the efficient development of new drugs through molecular screening.

Based on end user, in 2022, the biotechnology & pharmaceutical industries segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to the higher demand for liquid handling systems in the biotechnology & pharmaceutical industry, especially for drug discovery and manufacturing applications, and increased R&D expenditure in biopharma companies.

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Based on geography, in 2022, North America is expected to account for the largest share of the liquid handling systems market, followed by Europe and Asia-Pacific. North America’s large market share is attributed to its robust healthcare and R&D infrastructure, high R&D spending and investments, collaborations with large academic universities and the presence of key players in the region.

The report also includes an extensive assessment of the type, product portfolio, application, end user, and geography, and key strategic developments adopted by leading market participants in the industry over the past years (2020–2022). In recent years, the liquid handling systems market has witnessed numerous product launches & approvals, agreements, collaborations, partnerships, and mergers & acquisitions.

Some of the key players operating in this market study are Thermo Fisher Scientific Inc. (U.S.), Agilent Technologies, Inc. (U.S.), Danaher Corporation (U.S.), Eppendorf AG (Germany), Hamilton Company (U.S.), PerkinElmer, Inc. (U.S.), Tecan Group Ltd. (Switzerland), PRIMADAG SAS (France), BRAND GMBH + CO KG (Germany), Hudson Robotics (U.S.), SPT Labtech (U.K.), F. Hoffmann-La Roche Ltd. (Switzerland), QIAGEN N.V. (Netherlands), and Mettler-Toledo International, Inc (U.S.).

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Scope of the Report:

Liquid Handling Systems Market, by Type

Automated Liquid Handling Systems

Electronic Liquid Handling Systems

Manual Liquid Handling Systems

Liquid Handling Systems Market, by Product

Pipettes

Semi-automated pipettes

Manual Pipettes

Electronic Pipettes

Consumables

Liquid Handling Workstations

Burettes

Software

Microplate Reagents Dispensers

Microplate Washers

Other Products

(Other Products include stackers, flocculation tester, pipetting aid, and laboratory glassware)

Liquid Handling Systems Market, by Application

Drug Discovery

Cancer & Genomics Research

Clinical Diagnostics

Other Applications

(Other applications include proteomics, bioprocessing in biotechnology, basic research, and microbiology)

Liquid Handling Systems Market, by End User

Hospitals & Diagnostic Laboratories

Biotechnology & Pharmaceutical Industries

Research & Academic Institutes

Other End users

(Other end users include contract research organizations, forensic laboratories, and government laboratories)

Liquid Handling Systems Market, by Geography

North America

U.S.

Canada

Europe

Germany

France

U.K.

Italy

Spain

Rest of Europe (RoE)

Asia-Pacific

China

Japan

India

Rest of APAC (RoAPAC)

Latin America

Middle East & Africa

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Pipettes

Easily accessible switches on the SWIFTPET PRO allow selecting totally different operation modes relying on the volume of pipette and viscosity of the liquid. The SWIFTPET PRO is a wonderful device for pipetting in tissue culture laboratories, water remedy services, academic labs, and more. We provide a huge selection of manual/electronic pipettes, single or multi-channel pipettes, pipette controller and bottle top dispenser.

No convincing general dissimilarities between the virgin powder and the powder used after 2, three, and 10 build cycles have been detected. Our electronic overfill prevention systems mechanically check the system standing and their own inner circuitry 30 instances per second for the last word in safety. Scully spill prevention systems have been working in chemical and petroleum purposes for over 50 years and are unmatched of their volumetric filler machine safety document. LPG storage services could also be categorized as per the volume of liquid saved, the design of the LPG facility ought to take into concerns all security necessities. This line is usually related to a nozzle on the backside of the storage vessel. Upstream of the pump a strainer and an isolation valve must be put in on the pump suction line.

The IV™flow will stay in place once a patient is moved from a high care ward where electronic infusion pumps have been used, to wards where these pumps aren't out there. The IV™flow was designed to be used with any gravitational system presently available on the market, in addition to a number of further merchandise. Electronic Pipetting –Time to Rise to The ChallengeDo you pipette troublesome liquids like ethanol, glycerol or detergents with air-cushion pipettes?

Small LPG storage cylinders (gas bottles) are also transported on roads, the bottles crammed with LPG are properly organized on vans for onward delivery to prospects. The first category is the majority storage terminal which is generally used to retailer a large amount of LPG for onward delivery to smaller storage amenities. Natural fuel incorporates a high percentage of methane and other smaller share of hydrocarbons together with propane and butane and so on. During the processing of natural gas Liquefied Petroleum Gas (propane and butane) are extracted.

The machine additionally has a 3-axis robotic, providing excellent flexibility for the dispensing head. The machine is widely utilized in the plastics and metal sheet manufacturing industries for sealing various merchandise such volumetric filler as enclosures, converters, filters, lighting lenses, and family home equipment. The Foamed-in-place foam gasket machine employs FIPFG (formed-in-place foam gasket) know-how, foaming directly onto the half.

Our soap dispensers also can go through industrial cleaning; other dispenser can not do this. They may be small in dimension however perform key functions particularly across volumetric dispensing systems the product storage area and LPG switch locations. When they sense excessive temperature they could mechanically activate the sprinkler system put in in the product storage and transfer area.

In an automated facility, the recorded pressure is transmitted to the control room. If the recorded stress is higher than a set worth, the pump or compressor is shutdown down or the strain aid valve opens and depressurises the system. When the pressure in storage vessels will increase past a set point, the pressure reduction valve opens and depressurise the storage vessel.

Various communication protocols provides much more flexibility for extra demanding purposes. Once the HI burette is connected to the dosing pump, the titrator mechanically recognizes the burette volume. Each burette is created from chemically resistant material, making certain users a few years of trouble-free operation.

The Pumprite Brand, family grown in South Africa since 1978, contains of a high quality range of lubrication and allied gear that's central to mechanical longevity. Elga present water purification options for quite lots volumetric dispenser of laboratory functions. South Africa’s manufacturing setting has a model new answer to filth and overseas objects generated by forklift tires, trolleys and boots.



Digital Burette

Digital Burette NDB-100 is an electronic device that delivers accurate, precise, and convenient bottle-top titration while reducing the risk of accidental chemical contact and operator fatigue. It combines both magnetic stirrer and burette functions, making it easier for the user to achieve reproducible results in the fields of analytical chemistry, food industry, water analysis, etc

What are the advantages of electronic burette over a digital or glass burette?

Innovation and technology play a vital role in laboratory science to increase safety of lab technicians and improve the precision and accuracy of test results. Well designed instruments not only provide high precision in the lab, but also improve the productivity of the scientists by reducing the time required to conduct experiments. Electronic Burette is one such technology innovation which has improved the precision of titration experiments in the laboratory.

What is a Titration?

A titration is a technique that is used to determine the concentration of an unknown solution with the solution of known concentration. Typically, the titrant (the known solution) is added from an instrument called Burette to a known quantity of the analyte until the reaction is complete. Volume of titrant added by the Burette, allows the determination of the concentration of the analyte (the unknown solution). Burette gives the control for adding solution with a stopcock so that we can find the exact time of process completion with reading of added titrant given on a glass tube.

Burettes are widely used in many industries like Pharmaceutical, Environmental Monitoring, and Food & Beverages specially for ensuring accuracy for industrial titrations, general chemistry and wastewater treatment applications.

Application of titration experiment?

Purity analysis – in which acid-base titrations are often used. A good example is the purity control of the drug ephedrine, found in some cough syrups. An acid called perchloric acid is used as the titrant in this reaction.

Content analysis – wherein redox (oxidation-reduction) reactions are used to establish the purity of raw materials, including binding substances in oral medications, rather than the end product itself.

Precipitation titrations – which result in the formation of a solid product. One example is the antifungal drug clotrimazole.

The pH-stat titration – which is used to determine the acidity of drugs, check the purity of enzymes made and investigate the speed and other characteristics of relevant chemical reactions.

Traditional Titration Methods and their limitations:

Glass Burette:

Traditional Glass Burettes are graduated glass tubes with a tap at one end and a stopcock to control the flow of known concentrated liquid in the titration process. The glass burette has a tapered capillary tube at the stopcock’s outlet and a printed graduated scale that enables the lab scientist to precisely determine how much liquid has been dispensed in the titration process. However glass burettes have certain limitations. For instance, it is extremely unsafe to manually pour hazardous titrants with the risk of spillage and leakage. Also, it is hard to achieve high precision since the dispensing speed has to be manually controlled near the titration end point.

Digital Burette:

To overcome the shortcoming of glass burettes, Digital Burettes are one of the widely used electronic instruments. They have digital read-out to indicate the amount of titrant dispensed. Filling and dispensing of the liquid is controlled by hand operated wheels instead of the stopcock valve. This solves the problem of leakage as prevalent in glass burettes.

In spite of significant improvement over glass burettes, Digital Burettes have some disadvantages. The hand wheels fixed on the two sides of the digital burette have to be manually rotated to perform the filling and dispensing operations. This may be tiresome and un-ergonomic. Also, when the endpoint of the titration is near, the manual wheel rotation does not provide drop by drop dispense control. This may result in inaccuracy in the final titration reading and experiment conclusions.

Advantages of Electronic Burette:

Microlit Electronic Burette or E-Burette is an advanced version of digital burette that is designed for precise handling and dispensing of liquid. It completely eliminates the shortcomings prevalent with traditional titration methods. Electronic Burette has several advanced features like motor-controlled piston movement, touch screen enabled control panel integrated with smooth and easy graphical user interface (GUI) and three pre-set speed to perform more accurate titrant dispensing:

High Speed Dispensing — it dispenses at 2.20 ml/sec

Low-Speed Dispensing — it dispenses at 0.75 ml/sec

Dropwise Dispensing

These pre-set dispensing speed helps to control the liquid for correct measurement at the end point of titration. With the dropwise option in E-Burette, users can dispense droplets as small as 0.01ml which is very hard to obtain and control by other normal burettes.

Microlit E-Burette also have advanced following features that improve the instrument user experience:

One touch filling – No manual operations required

Computer connectivity to securely store and transfer experiment readings

Adjustable Delivery Nozzle

Robust Control Panel for optimal user experience

High Chemical Compatibility with a wide range of reagents

Microlit E-Burette is a worthwhile upgrade from your traditional titration methods to improve the safety, user experience and precision of your test results.

Top Liquid Handling Instruments Every Laboratory Should Have in 2024

The best thing about liquid handling instruments is that they act as the backbone of numerous laboratory processes. Right starting from the simple sample preparation to complex biological assays. Thus, investing in the right liquid handling equipment is important for ensuring accuracy, precision, and efficiency. So let’s explore some essential tools at Microlit that every laboratory should consider in 2024. 

1. E-Burette

The E-Burette stands out as a game-changer for titration processes. This advanced electronic burette offers unparalleled precision and ease of use, making it ideal for a variety of applications, from academic research to industrial quality control. Its digital interface allows for accurate volume measurements, and the automatic titration function ensures consistent and reliable results.

Key Features:

Digital display for accurate readings

Motorized dispensing for precision

User-friendly interface with touch-sensitive controls

2. RBO Micropipettes

When it comes to automatic micropipette, precision and comfort are paramount. RBO Micropipettes are ergonomically designed to provide superior accuracy and ease of use. Available in both single-channel and multi-channel versions, these micropipettes are perfect for a wide range of applications, including molecular biology tools, biochemistry, and clinical diagnostics.

Key Features:

Lightweight and ergonomic design

High accuracy and precision

Easy calibration and maintenance

3. SCITUS Bottle Top Dispensers

SCITUS Bottle Top Dispensers are essential for any laboratory handling reagents and solvents. These dispensers are designed to offer safe, accurate, and efficient liquid dispensing directly from the reagent bottle, minimizing the risk of contamination and spills.

Key Features:

Adjustable volume settings for versatility

Chemical-resistant materials for durability

Easy to attach and detach from bottles

4. Microlit BEATUS Pipette Controllers

For laboratories that frequently use serological pipettes, the Microlit BEATUS Pipette Controllers provide an excellent solution for precise and effortless liquid handling. These controllers are designed for comfort and ease, ensuring accurate aspiration and dispensing of liquids.

Key Features:

Ergonomic design for reduced hand fatigue

Variable speed control for precision

Compatibility with a wide range of pipettes

5. ULTIMUS Bottle Top Dispensers

The ULTIMUS Bottle Top Dispensers by Microlit are perfect for laboratories that demand high accuracy and repeatability in liquid dispensing. With advanced features and robust construction, these dispensers ensure reliable performance even under the most demanding conditions.

Key Features:

Advanced calibration mechanism

High chemical compatibility

Secure locking system for volume adjustments

Conclusion

As we move further into 2024, having the right liquid handling instruments is crucial for any laboratory aiming for excellence. Our range of products are designed to meet the highest standards of precision, reliability, and ease of use. By equipping your lab with these top-tier instruments, you can ensure that your research and diagnostic tasks are performed with the utmost accuracy and efficiency.Whether you are setting up a new lab or upgrading your existing equipment, we offer a comprehensive range of liquid handling solutions to meet your lab needs. Embrace the future of laboratory automation and experience the difference that precision and innovation can make in your scientific endeavors.

Motorized Burette | E - Burette Stand, Clamp &Titration Instrument | Microlit USA

The Microlit Motorized Burette stands out as a top-tier digital electronic burette, featuring a user-friendly TFT touchscreen interface complete with a stylus. With burette capacities of 10ml, 25ml, and 50ml, it serves as an indispensable tool for precise laboratory measurements, particularly in titration processes. Its advanced features make it the go-to choice for accurate and efficient lab work. Visit https://www.microlit.us/product-category/burette/

Glass Mold Market Growth Size is Estimated to Grow at Incredible CAGR till 2027

Glass is used in for manufacturing bottles, containers, vials, syringes, and ampoules among others. Glass molds play an important role in manufacturing of glass products such as ampoules, syringes and vials. Glass is preferred for these application as it tends to not react with the contents that are present in the package, thereby maintaining the life of the chemical or medicine. Hence, manufacturers are looking at glass packing solutions to improve the shelf life of the product.

Increasing demand for glass products such as jars, glass accessories, and glass lab-wares for application in various end-use industries such as chemical, food & beverages, healthcare, consumer electronics, and cosmetics. Therefore, significant increase in demand of glass wares is expected to boost glass mold market during the forecast period. Demand for glass bottles is especially high for packaging of alcoholic beverages, resulting in rampant growth of the glass molding industry. According to the Glass Packaging Institute, beer was the largest segment for glass bottles, representing nearly 57% of the total market in 2016 in the U.S.

Market Dynamics

Among end-use industries, the chemical segment is expected to account for significant market share in the global glass mold market. In 2018, the segment accounted for 13.7% share in the global glass mold market in terms of revenue. Beakers, cylinders, colored & clear bottles, flasks, burettes, pipettes, and various other lab-wares have extensive demand in chemical industries. In addition to lab-wares, amber glass bottles and jars are used for storing light sensitive chemicals in order to maintain quality of chemicals.

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Market Outlook

The global glass mold market was valued at US$ 802.5 million in 2018, and is expected to register a CAGR of 3.0% in terms of revenue over the forecast period (2019 – 2027), to reach US$ 1,042.0 million by 2027.

North America accounted for the largest market share in the global glass mold market in 2018, due to favorable growth of the pharmaceutical industry in the region. According to International Trade Association, pharmaceuticals is one of the largest, R&D intensive industries in the U.S. The research-based industry invests over 15-20% of the total revenue generated on R&D per year (over US$ 50 Billion in 2016). Moreover, total sales of pharmaceuticals in Canada are expected to increase to US$ 20.3 billion by 2020.

Key players in Glass Mold Market

Major players operating in the glass mold market include, Omco International N.V., Changshu Weiheng Mould Manufacture Co. Ltd., Changshu Jianhua Mould Technology Co. Ltd., Rayotek Scientific Inc., Jinggong Mould Manufacturing Co. Ltd., Rochester Precision Optics LLC., Razi Glass Group, Kopp Glass Inc., G. M. Engineers & Fabricators Private Limited, Slumpy's -The Glass Mold Company, and others.

Detailed Segmentation:

Global Glass mold Market, By Mold Type:

Alloy Cast Iron

Ordinary Cast Iron

Others

Global Glass mold Market, By End-use Industry:

Chemical

Food & Beverages

Healthcare

Others

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I am at that stage and time where burette becomes brunette and you are suffering from the electron beam as well as beam me up scotty overdose.... Lisa's Money and Taylor Swift are keeping my dry-eyed senses open.

Liquid Handling Technology Market Size, Distributor Analysis And Applications Insights till 2025

25th May 2021 – Global Liquid Handling Technology Market is expected to reach USD 6.99 billion by 2025. Liquid Handling Technology plays important role in research laboratories for experiments like drug screening, gene sequencing, antibody testing, and protein crystallization. It includes the movement of liquid reagents through the varied range of large-scale robotic stages to hand held single channel pipettes. These are the important technologies in order to enhance accuracy and performance for the user. The Liquid Handling Technology Market is estimated to grow at a significant CAGR of 8.5% over the future period as the scope and its applications are rising enormously across the globe. Increasing technological innovations in liquid handling systems, rise in biotechnology and pharmaceutical companies, rising importance on data accuracy and precision, and high demand for high-throughput screening are documented as major factors of Liquid Handling Technology Market that are estimated to enhance the growth in the years to come. However, pricing limitations and economic downturn all over the world are the factors that may restrain overall market growth in the coming years. Liquid Handling Technology Market is segmented based on type, product type, application, end user, and region.

Semi-automated liquid handling, automated liquid handling, and manual liquid handling are the types that could be explored in Liquid Handling Technology in the forecast period. Exclusively used products are consumables, automated workstations, and small devices could be explored in Liquid Handling Technology in the forecast period. Consumables comprises of tubes & plates, reagents, disposable tips, and others. On the other hand, small devices comprise dispensers, pipettes, burettes, and others. Pipettes may be manual, or electronic, or controllers. The market may be categorized based on applications like biotechnology/bioprocessing, drug discovery & ADME-Tox research, cancer & genomic research, and others. End users may include contract research organization, academic & research institutes, pharmaceutical & biotechnology companies, and others that could be explored in the forecast period.

Globally, North America accounted for the largest market share of Liquid Handling Technology Industry and is estimated to lead the overall market in the coming years. The reason behind the overall market growth could be acceptance of enhanced instrumentation technology in research & development and presence of key manufacturers in the region. The United States is a major consumer of Liquid Handling Technology in this region. Instead, Europe and the Asia Pacific are also estimated to have a positive influence on the future growth. Europe is the second largest region with significant market share, as presence of large customer base in the form of research and academic institutes. However, Asia Pacific is estimated to grow at fastest pace with the highest CAGR in the foremost period. The aspects that may be ascribed to the growth comprise growing investment in the life science sectors and rising developments in evolving countries. The developing countries like India and China are the major consumers of Liquid Handling Technology in the region.

The key players of Liquid Handling Technology Market are TecanTrading AG., Agilent Technologies, LABCYTE INC., Aurora Biomed Inc., Hamilton Company, Beckman Coulter Inc., Gilson Inc., Analytik Jena AG, Eppendorf AG, BioTek Instruments Inc., Labnet International Inc., and Borosil Glass Works Ltd. These players are concentrating on inorganic growth to sustain themselves amongst fierce competition. As such, mergers, acquisitions, and joint ventures are the need of the hour.

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Liquid Handling Systems Market Worth $6.99 Billion by 2029

According to a new market research report, ‘Liquid Handling Systems Market By Type (Automated, Electronic, Manual), Product (Pipette, Consumables, Burette, Software, Microplate), Application (Drug Discovery, Cancer & Genomics, Clinical), End User (Hospital, Diagnostic Lab) - Global Forecast to 2029,' published by Meticulous Research®, the liquid handling systems market is projected to reach $6.99 billion by 2029, at a CAGR of 6.4% from 2022 to 2029.

Download Free Report Sample Now @ https://www.meticulousresearch.com/download-sample-report/cp_id=5397 A liquid handling system involves any equipment used for transferring liquids in a laboratory from a pipette to the multifunction workstation. Liquid handling is usually required in the laboratory for various applications such as ELISA, nucleic acid preparation, PCR reaction, next-generation sequencing for genomic research, and liquid-liquid extraction. Liquid handling systems are crucial in increasing laboratory procedures requiring high-throughput screening.

Major factors driving the liquid handling systems market are the rapid growth and expansion of the pharmaceutical & biotechnology industry, increasing R&D expenditure of biopharmaceutical companies, rapid adoption of automation in laboratories, and growing demand for high-throughput screening. Furthermore, emerging economies and growing genomics and proteomics research are expected to provide significant growth opportunities for this market.

However, the high costs of automated liquid handling systems are expected to restrain the growth of this market to a notable extent. In addition, factors such as the slow adoption of automation among small & medium-sized laboratories and additional training required by the laboratory personnel for operating automated robotic liquid handling workstations are the major challenges to the growth of this market.

The Impact of COVID-19 on the Liquid Handling Systems Market

The coronavirus disease (COVID-19) outbreak in March 2020 impacted nearly every country around the globe. According to the WHO, as of 17th November 2022, there were 633.2 million confirmed cases and 6.6 million confirmed deaths. During the initial months of the pandemic, there were nationwide lockdowns and restrictions in several countries. This led to a global supply chain disruption and shortages of equipment & consumables. Further, according to the International Monetary Fund, the pandemic shrunk the global economy by about 3.5% in 2020. These factors had a short-term negative impact on the global liquid handling systems market.

However, due to the pandemic, there was an increased demand for COVID-19 testing in laboratories. Large volumes of samples were to be tested, and liquid handling systems were a crucial part of performing these tests. This led to an increased demand for liquid handling systems in clinical diagnostics laboratories. In addition, there was an increased demand for drug discovery and vaccine development. The demand for various types of liquid handling systems in pharmaceutical and biotechnology companies also increased. Thus, the COVID-19 pandemic ultimately had a positive impact on the liquid handling systems market.

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The liquid handling systems market is segmented by Type (Automated Liquid Handling Systems, Electronic Liquid Handling Systems, and Manual Liquid Handling Systems), Product (Pipettes [Semi-Automated Pipettes, Manual Pipettes, and Electronic Pipettes], Consumables, Liquid Handling Workstations, Burettes, Software, Microplate Reagents Dispensers, Microplate Washers, and Other Products), Application (Drug Discovery, Cancer & Genomics Research, Clinical Diagnostics, and Other Applications), End User (Hospitals & Diagnostic Laboratories, Biotechnology & Pharmaceutical Industries, Research & Academic Institutes, and Other End Users), and Geography. The study also evaluates industry competitors and analyzes their market share at global and regional levels.

Based on type, in 2022, the automated liquid handling systems segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to factors such as the increased demand for high-throughput screening, the advantages of automated liquid handling systems, and the increased capabilities of end users to acquire advanced automated liquid handling systems.

Based on product, in 2022, the pipette segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to the basic utility of pipettes in the liquid handling process and its applicability in a wide range of applications such as in sample preparation, serial dilution, and various types of assays.

Based on application, in 2022, the drug discovery segment is expected to account for the largest share of the liquid handling systems market. This segment's large market share is attributed to the high demand for newer personalized drugs for treating a wide range of diseases, increased R&D expenditure, and increased focus on the efficient development of new drugs through molecular screening.

Based on end user, in 2022, the biotechnology & pharmaceutical industries segment is expected to account for the largest share of the liquid handling systems market. The large market share of this segment is attributed to the higher demand for liquid handling systems in the biotechnology & pharmaceutical industry, especially for drug discovery and manufacturing applications, and increased R&D expenditure in biopharma companies.

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Based on geography, in 2022, North America is expected to account for the largest share of the liquid handling systems market, followed by Europe and Asia-Pacific. North America’s large market share is attributed to its robust healthcare and R&D infrastructure, high R&D spending and investments, collaborations with large academic universities and the presence of key players in the region.

The report also includes an extensive assessment of the type, product portfolio, application, end user, and geography, and key strategic developments adopted by leading market participants in the industry over the past years (2020–2022). In recent years, the liquid handling systems market has witnessed numerous product launches & approvals, agreements, collaborations, partnerships, and mergers & acquisitions.

Some of the key players operating in this market study are Thermo Fisher Scientific Inc. (U.S.), Agilent Technologies, Inc. (U.S.), Danaher Corporation (U.S.), Eppendorf AG (Germany), Hamilton Company (U.S.), PerkinElmer, Inc. (U.S.), Tecan Group Ltd. (Switzerland), PRIMADAG SAS (France), BRAND GMBH + CO KG (Germany), Hudson Robotics (U.S.), SPT Labtech (U.K.), F. Hoffmann-La Roche Ltd. (Switzerland), QIAGEN N.V. (Netherlands), and Mettler-Toledo International, Inc (U.S.).

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Liquid Handling Technology Market - Latest Innovations by Industry Experts Till 2025

25th May 2021 – Global Liquid Handling Technology Market is expected to reach USD 6.99 billion by 2025. Liquid Handling Technology plays important role in research laboratories for experiments like drug screening, gene sequencing, antibody testing, and protein crystallization. It includes the movement of liquid reagents through the varied range of large-scale robotic stages to hand held single channel pipettes. These are the important technologies in order to enhance accuracy and performance for the user. The Liquid Handling Technology Market is estimated to grow at a significant CAGR of 8.5% over the future period as the scope and its applications are rising enormously across the globe. Increasing technological innovations in liquid handling systems, rise in biotechnology and pharmaceutical companies, rising importance on data accuracy and precision, and high demand for high-throughput screening are documented as major factors of Liquid Handling Technology Market that are estimated to enhance the growth in the years to come. However, pricing limitations and economic downturn all over the world are the factors that may restrain overall market growth in the coming years. Liquid Handling Technology Market is segmented based on type, product type, application, end user, and region.

Semi-automated liquid handling, automated liquid handling, and manual liquid handling are the types that could be explored in Liquid Handling Technology in the forecast period. Exclusively used products are consumables, automated workstations, and small devices could be explored in Liquid Handling Technology in the forecast period. Consumables comprises of tubes & plates, reagents, disposable tips, and others. On the other hand, small devices comprise dispensers, pipettes, burettes, and others. Pipettes may be manual, or electronic, or controllers. The market may be categorized based on applications like biotechnology/bioprocessing, drug discovery & ADME-Tox research, cancer & genomic research, and others. End users may include contract research organization, academic & research institutes, pharmaceutical & biotechnology companies, and others that could be explored in the forecast period.

Globally, North America accounted for the largest market share of Liquid Handling Technology Industry and is estimated to lead the overall market in the coming years. The reason behind the overall market growth could be acceptance of enhanced instrumentation technology in research & development and presence of key manufacturers in the region. The United States is a major consumer of Liquid Handling Technology in this region. Instead, Europe and the Asia Pacific are also estimated to have a positive influence on the future growth. Europe is the second largest region with significant market share, as presence of large customer base in the form of research and academic institutes. However, Asia Pacific is estimated to grow at fastest pace with the highest CAGR in the foremost period. The aspects that may be ascribed to the growth comprise growing investment in the life science sectors and rising developments in evolving countries. The developing countries like India and China are the major consumers of Liquid Handling Technology in the region.

The key players of Liquid Handling Technology Market are TecanTrading AG., Agilent Technologies, LABCYTE INC., Aurora Biomed Inc., Hamilton Company, Beckman Coulter Inc., Gilson Inc., Analytik Jena AG, Eppendorf AG, BioTek Instruments Inc., Labnet International Inc., and Borosil Glass Works Ltd. These players are concentrating on inorganic growth to sustain themselves amongst fierce competition. As such, mergers, acquisitions, and joint ventures are the need of the hour.

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