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microlitseo · 11 days

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Liquid Handling Solutions for ELISA and Other Immunoassays

Enzyme-linked immunosorbent assays (ELISA) and other immunoassays are essential tools in laboratories for detecting and quantifying biological molecules such as proteins, antibodies, and hormones. These assays are widely used in diagnostics, research, and pharmaceutical industries due to their sensitivity and specificity. However, for these tests to deliver accurate and reproducible results, precise liquid handling is crucial.

In this blog, we’ll explore how liquid handling instruments play a key role in ELISA and other immunoassays, and what tools can enhance the efficiency and accuracy of these assays.

Understanding the Role of Liquid Handling in ELISA and Immunoassays

ELISA and immunoassays typically involve multiple steps, such as adding reagents, washing, and detecting signals from the sample. Each of these steps requires precise dispensing of liquids to ensure proper binding and reaction between molecules. Even small inconsistencies in pipetting can lead to errors in results, compromising the reliability of the data.

Here are some steps where precise liquid handling is vital:

Sample Dispensing: Accurate measurement of the sample to ensure consistent concentration across wells.

Reagent Addition: Reagents, such as antibodies or substrates, must be added uniformly for reproducibility.

Washing: Thorough washing of wells to remove unbound material and minimize background noise.

Substrate Addition: Ensuring equal amounts of substrate to each well for uniform colorimetric or fluorescent signals.

Liquid Handling Solutions for ELISA and Immunoassays

Let’s take a look at some advanced liquid handling solutions that help labs achieve high-quality ELISA and immunoassay results.

1. Micropipettes

Micropipettes are essential tools for handling small volumes of liquid in immunoassays. Both manual and automated micropipettes are widely used for dispensing reagents and samples in ELISA. Key factors when selecting micropipettes for immunoassays include accuracy, precision, and ergonomic design.

Microlit NERO Micropipettes: Known for its ergonomic design and superior accuracy, the NERO range includes both single-channel and multi-channel micropipettes. Multi-channel options are particularly useful in ELISA, allowing multiple wells to be filled simultaneously, speeding up the process and reducing variability.

2. Electronic Dispensers

Electronic dispensers simplify repetitive pipetting tasks and reduce the chances of human error. They are useful for adding reagents in fixed or variable volumes during different stages of ELISA and immunoassays.

Microlit E-BURETTE: This E-Burette is designed to dispense precise amounts of reagents effortlessly. It eliminates user fatigue and enhances consistency, which is critical when handling large numbers of samples in immunoassays.

3. Bottle Top Dispensers

For laboratories dealing with multiple reagents in large volumes, bottle top dispensers provide an efficient solution. These dispensers allow easy, accurate, and contamination-free transfer of reagents directly from the bottle.

Microlit BEATUS: A bottle top dispenser with excellent chemical compatibility and precision, BEATUS ensures that reagents are safely and accurately dispensed, reducing the risk of cross-contamination in ELISA and immunoassays.

4. Automated Liquid Handling Systems

Automation is transforming laboratories by increasing throughput and minimizing manual intervention. Automated liquid handling systems can perform complex pipetting tasks, including sample preparation, washing, and reagent addition, with precision and speed.

While high-throughput labs benefit greatly from automation, smaller labs can still achieve consistency by using electronic pipettes and semi-automated dispensers for immunoassays.

Best Practices for Liquid Handling in ELISA and Immunoassays

To make the most of liquid handling solutions and improve the accuracy of immunoassays, labs can follow these best practices:

Regular Calibration: Ensure that pipettes and dispensers are regularly calibrated to maintain accuracy.

Use Multi-Channel Pipettes: Multi-channel pipettes can significantly reduce variability between wells, particularly when adding samples or reagents in ELISA plates.

Minimize Air Bubbles: When aspirating and dispensing, be mindful of air bubbles as they can cause inconsistencies in volume and affect results.

Avoid Touching the Sidewalls: During pipetting, avoid touching the sides of wells as this can lead to inaccurate volumes and cross-contamination.

Conclusion

Liquid handling plays a fundamental role in ensuring the success of ELISA and other immunoassays. By using precise and reliable tools like micropipettes, electronic dispensers, and bottle top dispensers, labs can improve the accuracy and reproducibility of their assays.

Microlit’s range of liquid handling instruments is designed to meet the high demands of immunoassays, ensuring that labs can carry out their research and diagnostics with confidence. Whether you’re running routine tests or handling critical samples, investing in high-quality liquid handling solutions will enhance the reliability of your results and streamline your workflows.

#liquid handling instruments #pipetting #liquid handling solutions #E-Burette #bottle top dispensers #electronic pipettes

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accumax · 1 month

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Micropipette Guide 2024: Types, Applications and More

Micropipettes or pipettes, are instruments used to measure liquid ranging between volumes of 1-10000 µl and transfer it from one sample container to another. This is a basic liquid-handling instrument for almost all scientific laboratories.

Types of Micropipettes

There is no 1 way to classify micropipettes. It can vary in a number of ways.

1. Number of Channels

Single Channel Micropipettes

A single-channel micropipette has only 1 channel to aspirate and dispense the liquid. It means you can handle only one sample at a time.

Multi-Channel Micropipettes

Multi-channel micropipettes can handle 8, 12 or 16 samples in one go. It can attach multiple tips at the same time and you can get the work done faster especially if working in high-throughput labs.

2. Volume Adjustment

Fixed Volume Micropipettes Here the volume a pipette can aspirate and dispense remains the same and you don’t have the option to adjust or choose between a range. They offer consistent and accurate results for repetitive pipetting.

Variable Volume Micropipettes

Variable volume pipettes give you the flexibility to choose the volume you want to pipette (within the given range). You need to set the volume manually on the dial. High-performance pipettes also come with a volume lock feature for enhanced safety and reliability.

3. Operating Mechanism

Mechanical Pipettes

These are the standard pipettes widely used in all laboratories. Mechanical micropipettes operate on a piston-driven system, where users manually set the desired volume using a dial and apply thumb pressure on the plunger to aspirate and dispense liquids.

Electronic Micropipettes

Electronic micropipettes are more expensive than mechanical ones because they have digital controls, programmability and eliminates the element of human error to a certain extent. It has an electronic display and is ideal for high-throughput labs where reproducibility is paramount.

Components of Micropipette

Plunger

The plunger is one of the main components of the micropipette. Use your thumb to press down on the plunger to aspirate and dispense the liquid.

Then, with a firmer push, sometimes called the “blow-out stop,” it ensures a thorough expulsion of any remaining liquid, guaranteeing accurate measurements—a two-step process of liquid control.

Ergonomics are a key point here since lab professionals will be pipetting repeatedly for long hours. A low-force mechanism which does not require excessive plunge force, will minimize the RSI.

Volume Adjustment Dial

By twisting the volume adjustment dial, you dictate the micropipette’s plunger movement, determining your experiment’s liquid dosage. In micropipettes with adjustable volumes, this feature offers precise measurement control, no matter how small or large the quantity is.

Tip Ejector

Keep your hands and micropipette clean by disposing of used tips promptly. Utilize the convenient tip ejector button to effortlessly remove micropipette tips, ensuring a fuss-free and contamination-free experiment environment.

Tip Cone The tip cone, also known as the shaft, is the crucial component of a micropipette where the disposable tip is inserted. Its primary function is to ensure a snug fit for the tip, ensuring precision in measurements and preventing air leakage. Its adaptable shape accommodates various sizes and styles of tips, allowing for versatile and secure usage without concerns of detachment or disruptions.

Calibration Screw Inside the micropipette lies a crucial component, the calibration screw. This is what makes accuracy possible. Twisting this tiny screw adjusts the liquid output, fine-tuning the micropipette’s performance. Regular checks and tweaks, as advised by the manufacturer, ensure precision in your measurements, keeping everything flowing smoothly.

Applications of Micropipettes in Laboratory

Micropipettes are used to measure any small amount of liquid samples for testing and research. They are crucial in lab settings like molecular biology and diagnostics, precisely transferring tiny liquid volumes, facilitating diverse experiments. Mastery of their principles is key to effective scientific research and analysis.

Some common applications include:

1. Molecular Biology 2. Biochemistry 3. Cell Culture 4. Microbiology 5. Analytical Chemistry 6. Clinical Diagnostics 7. Pharmaceutical Research

How does a Micropipette work?

Micropipettes operate on the principle of air displacement. They consist of a plunger connected to an internal piston, which moves to two distinct positions: Filling Position: When the plunger is depressed to the first stop, the internal piston displaces a volume of air equal to the desired volume shown on the volume indicator dial. This creates a vacuum, drawing the liquid into the tip. Dispensing Position: The second stop on the plunger is used solely for dispensing the contents of the tip without drawing in additional air.

How to use a micropipette?

1. Start with choosing the right micropipette and micropipette tips

Select the one that is best for your application. While pipettes are similar in the way they function, what sets them apart is the accuracy and precision of the measurement, ergonomics and general durability of the instrument.

Set the volume based on your requirement and ensure the tips match the volume of the pipettes.

2. Attach the micropipette tip to the micropipette

Don’t use excessive force here because good quality pipettes will be quick and seamless to attach to the tips and should provide a leak-proof seal.Immerse the pipette in the liquid at 90 degrees Be mindful of your posture and keep the position upright. Aspirate and dispense 2-3 times before actually measuring the liquid

3. Forward or Reverse Pipetting

First let’s talk about forward pipetting:To aspirate the liquid in the tip, press the plunger to the ﬁrst stop. Immerse the pipette tip vertically in the liquid. Slowly release the plunger while the tip is immersed. The liquid will be aspirated into the pipette tip. To dispense the liquid, place the tip on the inner wall of the receiving vessel at a steep angle Slowly press the plunger to the ﬁrst stop to dispense the liquid. To empty the tip completely, press the plunger to the second stop.

Now for reverse pipetting

The reverse technique is suitable for dispensing reagents/solutions that have high viscosity or a tendency to foam easily. It is also recommended for dispensing very small volumes.To aspirate the liquid in the tip, press the plunger to the second stop and immerse the pipette tip vertically in the liquid. Slowly release the plunger while the tip is immersed. The liquid will be aspirated into the pipette tip. To dispense the liquid, place the tip on the inner wall of the tube at a steep angle. Slowly press the plunger to the ﬁrst stop. Finally, eject the tip and dispose it off

Calibration of Micropipettes

Calibration is conducted through gravimetric testing, which involves weighing the amount of pure water delivered in a single operation of the pipette. The obtained mass is divided by the density of water to determine its volume. Variable volume pipettes should undergo testing at three or more points across their designated range, typically at maximum volume, 50% of maximum volume, and the lower limit of their range.

Here’s a general guide on how to calibrate a micropipette:

1. Gather MaterialsMicropipette(s) to be calibrated Appropriate pipette tips Distilled water or a calibration solution Weighing balance with appropriate accuracy (usually in milligrams) Gloves and lab coat for safety

2. Prepare the Micropipette Ensure the micropipette is clean and free from any residue. Attach a fresh and compatible pipette tip to the micropipette.

3. Pre-Wet the Pipette Tip (Optional) For some micropipettes, pre-wetting the tip with the liquid being used can help ensure accuracy. Follow the manufacturer’s recommendations regarding pre-wetting.

4. Prepare the Calibration Solution Use distilled water or a calibration solution recommended by the micropipette manufacturer.

Ensure the calibration solution is at room temperature to minimize density variations.

5. Set the Micropipette to the Desired Volume Adjust the micropipette to the volume you want to calibrate (e.g., if calibrating a 10-100 μL micropipette, set it to 50 μL).

6. Dispense Liquid into a Weighing Boat or Container Dispense the liquid from the micropipette into a weighing boat or a container placed on a weighing balance.

Note down the initial weight (W1) of the liquid dispensed.

7. Weigh the Dispensed Liquid Carefully weigh the liquid dispensed using the weighing balance. Ensure the balance is calibrated and accurate.

Record the final weight (W2) of the liquid.

8. Calculate the Dispensed Volume Subtract the initial weight (W1) from the final weight (W2) to determine the weight of the liquid dispensed (W).

Convert the weight of the liquid dispensed to volume using the density of the liquid or the known density of the calibration solution.

Calculate the actual volume dispensed using the formula:

9. Compare with Expected Volume Compare the calculated volume dispensed with the expected volume (e.g., 50 μL for a 10-100 μL micropipette). Calculate the percent error to assess the accuracy of the micropipette calibration:

10. Adjust if Necessary If the percent error is within an acceptable range (typically ±2-5%), the micropipette is calibrated. Otherwise, adjustments may be needed. Consult the micropipette’s user manual for instructions on how to adjust the volume settings. Adjust carefully and recheck the calibration until the desired accuracy is achieved.

11. Record Calibration Data Keep a record of the calibration process, including the micropipette serial number, date of calibration, volume settings, calibration solution used, measured weights, calculated volumes, and any adjustments made.

12. Final Checks After calibration, perform a final check to ensure the micropipette is dispensing accurately and consistently across the volume range.

When is micropipette calibration required?

Micropipette calibration is typically required in the following situations:

Initial Use

New micropipettes should be calibrated before their initial use to ensure accuracy and precision.

Scheduled Calibration

Regular calibration intervals are recommended to maintain the accuracy of micropipettes over time. The frequency of calibration depends on factors such as the frequency of use, the criticality of the measurements, and the manufacturer’s recommendations.

After Maintenance or Repair

Calibration should be performed after any maintenance or repair work on the micropipette to verify that it meets the required specifications.

Change in Operating Conditions

If there is a significant change in the operating conditions, such as temperature or altitude, recalibration may be necessary to account for these factors’ effects on the micropipette’s performance.

Compliance Requirements

Laboratories may have regulatory or quality assurance requirements that mandate regular calibration of micropipettes to ensure traceability and compliance with standards.

Where do we get the best micropipette for the lab?

When purchasing a micropipette for your lab, consider key factors such as accuracy, precision, ergonomics, and ease of maintenance. Research the brands and models, compare specifications, and read user reviews to make an informed decision. Evaluate additional features like adjustable volume settings and compatibility with automation systems. Set a budget and balance costs with desired features. Check warranty coverage and customer support options for added peace of mind.

Cleaning and Maintenance of Micropipettes

1. External CleaningRemove and Clean the Tip Ejector: Begin by detaching the tip ejector and giving it a thorough wipe-down.

Wipe Down All Exposed Surfaces: Take a lint-free cloth or tissue and carefully wipe all visible parts of the micropipette, including the body, buttons, operating rod, and tip holder. Be diligent in cleaning any scuffs, marks, or accumulated debris in hard-to-reach areas.

Use a Brush for Stubborn Debris: If there are persistent stains or dirt, consider using a soft-bristled brush to gently scrub the affected areas.

Reassemble and Allow to Dry: Once the exterior surfaces are clean, reattach the tip ejector and ensure it is securely in place. Leave the pipette to air dry completely before further use. Final Wipe with Cleaning Solution: Finish the cleaning process by wiping down the outer surfaces once more with a cleaning solution to remove any remaining residue. Allow the alcohol to evaporate fully before returning the pipette to service.

2. Internal Cleaning

Cleaning the inside of a pipette should be handled by trained personnel to avoid incorrect reassembly, which can damage the micropipette and affect its performance, leading to decreased accuracy and potential leakage.Disassemble the Micropipette: Carefully take apart the pipette, placing the upper part in a clean, dry area.

Wipe with Alcohol-Coated Wipes: Use alcohol-coated wipes to thoroughly clean the entire interior, including the body, connecting nut, tip holder, O-ring, seal, and the stainless steel surface of the piston. Ensure the piston is completely dry to prevent corrosion.

Allow Alcohol to Evaporate: Let the alcohol evaporate fully from the interior of the pipette. Check for Lubrication Needs: Refer to the instruction manual to determine if any parts, like the piston assembly and seals, require lubrication. Follow the manual’s guidance for reassembly, ensuring proper alignment and placement of components.

Maintaining Micropipettes

When the pipette is not in use it should be stored in an upright position. The pipette should be inspected prior to use each day for any dust or contamination on outside surfaces. Special attention should be given to the tip cone. No solvent other than isopropanol should be used to clean the pipette. If the pipette is used daily, an internal parts inspection should be performed every three months.

Choosing the right micropipette for your applicationEnsure that the micropipette can accommodate the desired range of liquid volumes for your pipetting needs.

Verify if the micropipette features a universal tip cone to accommodate various types of pipette tips.

Check if the micropipette is autoclavable at the necessary temperature to ensure proper sterilization.

Check if the micropipette is UV resistant so that they can be kept inside the hood even when the UV mode is on.

Assess the ergonomic design of the micropipette for smooth and comfortable handling during use. Confirm if the micropipette is calibrated to guarantee precise dispensing of liquids.

Evaluate the accuracy and precision of the micropipette’s readings to ensure compliance with ISO standards.

Ergonomics is a key factor in choosing a pipette because repetitive strain injury is common amongst lab personnel who pipette regularly. Low-force tip ejection and minimal plunge force are crucial.

Accumax Lab Devices specializes in manufacturing high-precision liquid handling instruments for top-tier laboratories worldwide. With a focus on innovation, it offers an advanced range of micropipettes designed to enhance user experience within real-world laboratory settings. Especially our range of FAB and FAB LF pipettes, which are specially designed for accuracy and precision with excellent ergonomics to elevate your pipetting experience like never before.

Micropipette FAQs

1. Can I use any brand of pipette tips with my micropipette?

Whether you can use any brand of pipette tips with your micropipette depends on its tip cone design. If your micropipette has a universal tip cone, it means it’s compatible with a wide range of international pipette tip brands, as long as they’re suitable for your micropipette’s volume capacity.

2. What’s the best way to sterilize my pipette before use?

To clean your micropipette before using it, first, check if it can be sterilized using an autoclave. If it can, follow the instructions in the manual to know the right temperature and duration for sterilization. Make sure to consider the type of liquid you’ll be using it for.

3. Is there a simple way to check if my micropipette is calibrated correctly?

Set it to the usual volume, then dispense water five times. Weigh what you piped out on a scale. If it matches up nicely with the ISO standard, your micropipette is good to go. If not, it’s time for a recalibration.

4. How frequently should I recalibrate my micropipette?

For regular use, it’s good to check your micropipette’s calibration every 3 to 6 months. Following the ISO 8655 standard, it’s recommended to have it calibrated annually.

5. How to adjust the volume of a micropipette?

To adjust the volume on your micropipette, look for the display showing numbers indicating the volume range. If you have a fixed-volume micropipette, the range is predetermined. However, if you have a variable volume micropipette, you can adjust it within the given range by using the rotational dial located at the top of the micropipette plunger. Alternatively, you can consult the manual for specific instructions on changing the volume.

6. Why is it important to avoid touching the tips of the micropipette?

When you touch the tips of a micropipette, you risk transferring oils and other substances from your fingers onto them. This can interfere with the accuracy of volume measurements and potentially contaminate your samples. To maintain precision and avoid contamination, it’s best to handle the micropipette tips only with the instrument itself.

7. What happens if I release the plunger of the micropipette too quickly?

Releasing the micropipette plunger too quickly can lead to inadequate liquid draw up and dispensing, causing potential inaccuracies in your measurements.

8. What should I do if my micropipette isn’t working right?

If your micropipette isn’t working properly, it’s time for some troubleshooting. Start by double-checking if it’s properly calibrated and if the volume setting is correct. Ensure that the pipette tips are securely attached and not damaged. If the issue persists, you might need to clean or maintain the micropipette according to the manufacturer’s instructions. If all else fails, it might be time to consult with a colleague or contact technical support for further assistance.

9. Can my micropipette handle different types of liquids?

Your micropipette is designed to handle a variety of liquids, whether they’re watery solutions, viscous substances, or even oils. As long as you’re using the appropriate tip size and technique, your micropipette can smoothly pipette different types of liquids.

This blog originally posted here: Micropipette Guide 2024: Types, Applications and More

#Micropipette #micropipette tips #Micropipette Guide

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labequipmentindia · 7 months

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Lab Equipment

1. Beakers and Flasks: Foundations of Measurement

Beakers and flasks are iconic symbols of laboratory Equipment work, serving as vessels for holding, mixing, and measuring liquids. Beakers come in various sizes, typically marked with volume gradations for accurate measurement. They are versatile, allowing scientists to perform tasks such as stirring, heating, and pouring. Flasks, on the other hand, often have narrower necks and are used for more precise measurements and reactions where evaporation needs to be minimised. Together, these basic containers form the backbone of liquid handling in labs worldwide.

2. Microscopes: Unlocking the Microcosm

Microscopes are indispensable lab equipment tools for exploring the microscopic world. They enable scientists to magnify objects hundreds or even thousands of times, revealing details that are invisible to the naked eye. From examining cells and microorganisms to analyzing materials at the nanoscale, microscopes play a crucial role in fields such as biology, medicine, materials science, and beyond. With advancements like electron microscopy and confocal microscopy, researchers can delve even deeper into the intricacies of the microcosm.

3. Centrifuges: Separating Powerhouses

Centrifuges harness the principles of centrifugal force to separate substances based on their density. By spinning samples at high speeds, centrifuges cause heavier particles to settle at the bottom while lighter components rise to the top. This process is invaluable for tasks such as isolating DNA, purifying proteins, and separating blood components in medical diagnostics. Modern centrifuges offer a range of capabilities, including variable speed settings, temperature control, and specialized rotors for specific applications.

4. Spectrophotometers: Shedding Light on Chemical Analysis

lab equipment Spectrophotometers are instrumental in quantifying the amount of light absorbed or transmitted by a substance across different wavelengths. This information is used to determine the concentration of analytes in solutions, making spectrophotometry a cornerstone technique in fields like biochemistry, environmental science, and pharmaceuticals. UV-visible spectrophotometers are commonly used for measuring organic compounds, while infrared and atomic absorption spectrophotometers cater to different analytical needs.

5. Incubators and Ovens: Cultivating Conditions

lab equipment and ovens provide controlled environments for cultivating cells, growing cultures, and conducting experiments that require specific temperature and humidity conditions. Incubators are crucial for cell culture work, microbiology research, and molecular biology techniques like PCR (polymerase chain reaction). Ovens, on the other hand, are used for sterilization, drying, and heat treatments in applications ranging from sample preparation to materials testing.

6. Pipettes and Dispensers: Precise Liquid Handling

Pipettes and dispensers are precision instruments used for transferring precise volumes of liquids. Manual pipettes are operated by hand and are available in various formats, including micropipettes for small volumes and multichannel pipettes for high-throughput applications. Automated pipetting systems offer increased efficiency and reproducibility, making them ideal for tasks like serial dilutions, liquid handling in high-throughput screening, and molecular biology workflows.

7. Analytical Balances: Weighing with Precision

Analytical balances provide accurate measurements of mass, essential for tasks like preparing solutions, dosing reagents, and determining the purity of substances. These balances offer high precision, often capable of measuring weights down to the microgram or even nanogram level. They are equipped with features such as draft shields to minimize environmental interference and calibration routines to ensure accuracy.

lab equipment, the workhorses of any laboratory. Beakers, test tubes, and flasks, made from durable glass, are used for mixing, storing, and heating various substances. Pipettes, with their precise markings, ensure accurate measurements of even the smallest volumes. And who can forget the ubiquitous Bunsen burner, providing heat for countless experiments?

Delving deeper:

As we move beyond the basics, we encounter a world of specialized equipment. Microscopes, with their powerful lenses, unveil the unseen world of cells and microorganisms. Centrifuges separate mixtures based on density, while spectrometers analyze the composition of materials. Each piece of equipment is designed for a specific purpose, contributing to the scientific process in its own unique way.

The cutting edge:

Modern science is constantly evolving, and so is the equipment that supports it. Advanced tools like 3D printers and gene sequencers are pushing the boundaries of what’s possible. These sophisticated instruments allow scientists to create complex structures, analyze DNA, and unlock the secrets of life itself.

Beyond the tools:

But lab equipment is more than just tools. They are partners in discovery, silent witnesses to countless experiments and breakthroughs. They represent the dedication and ingenuity of scientists, engineers, and technicians who design, build, and use these instruments to push the frontiers of knowledge.

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laboratorydeal · 1 year

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#LABORATORYEQUIPMENTS

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microlitt · 2 years

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youtube

Measuring Pipette

Check out the video and get the complete information measuring pipette, filter tips and many more. Visit today!

#Youtube

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srisaiinstrument · 2 years

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Sri Sai Enterprises involved in offering high quality range of Variable Volume Micropipette. Micropipette is fabricated using high grade material, which are procured from certified vendors in the market. These are highly appreciated by our clients for features like durability, robust construction, Users-friendly and easy to clean. Micropipettes are generally used in microbiology, chemistry, and medical testing laboratories for the accurate and precise transfer of samples. We are best Micropipette Manufacturers in India. Click Here: - https://www.srisaiinstruments.com

#Micropipette Manufaturers #Micropipette Manufacturers in India.

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martynnx-blog · 5 years

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Pipettes and Accessories Market Growth Opportunities, Share & Competitive Landscape Report To 2026

The global pipettes and accessories market size was valued at US$ 1.3 billion in 2017 and is expected to witness a CAGR of 4.0% over the forecast period (2018 – 2026).

Pipettes are used in biotechnology, pharmaceutical, and chemical laboratories in order to transfer certain volume of liquids. Micropipettes are important in molecular biology experiments, which require microliter amounts of solutions whereas serological pipettes are used in microbiology laboratories to prepare cell cultures that require media preparations of milliliter volumes. Volume transfers with sterile cultures and solutions using instruments such as micropipettes and serological pipettes are one of several types of routine techniques performed in a laboratory. Pipette designs such as electronic pipetting, ultralight pipettes, plungers positions in more user-friendly configurations, and reducing frictional forces help in reducing strain.

Download the PDF brochure: https://www.coherentmarketinsights.com/insight/request-pdf/2322

Increasing research and development in the field of pharmaceuticals and biotechnology due to high prevalence of infectious diseases and cancer are the major factors driving the pipettes and accessories market growth. According to 2012 European Union Industrial R&D Investment Scoreboard, the pharmaceutical and biotechnology sectors represented 17.7% of business R&D expenditure in the world.

Pharmaceutical companies are increasingly focusing on conducting research and development activities as well as outsourcing such activities to academic and private research institutes. This in turn is increasing demand for liquid handling systems such as pipettes. Pharmaceutical companies are also increasingly outsourcing their research activities to privately-owned Contract Research Organizations (CRO) to maintain their presence in the growing pharmaceutical and biotechnology market. For instance, in May 2018, Ritter Pharmaceuticals, Inc., a manufacturer of novel therapeutic products entered into an agreement with Medpace, a CRO to conduct the first of two pivotal Phase 3 clinical trials for RP-G28 among patients with lactose intolerance.

Pipettes and Accessories Market Restraints

Pipettes are extensively used for various applications and are thus exposed to various types of reagents and specimens. They can introduce quality-specific concerns regarding precision and accuracy and can also lead to safety risks, particularly while working with hazardous chemicals or specimens with a high infection risk. Furthermore, high cost of electronic pipettes can be a negative factor for the market growth. For instance, the cost of the Xplorer plus electronic single channel pipette with charging adapter is around US$ 1000. This product may not be affordable for several laboratories due to its high price. However, manual pipettes tend to be more economical, though they produce greater variability, particularly for highly sensitive or expensive pipetting applications.

Browse Complete Report For More Information @ https://www.coherentmarketinsights.com/market-insight/pipettes-and-accessories-market-2322

#Pipettes and Accessories Market #Pipettes and Accessories

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researchandreports-blog1 · 6 years

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Pipettors Market Price Trends and Key Raw Material Analysis 2018-2025

January 9, 2019: The Global Pipettors market is expected to grow at a substantial CAGR in the years to come. A pipettor, commonly termed as a “pipette” or “pipet” is a laboratory tool generally used in biology, chemistry, and medicine to dispense measured volume of liquid. Pipettes basically work by creation of partial vacuum above the chamber that holds the liquid and selectively releases this vacuum to draw up and give out according to the preferred volume. Pipettors dispensing between 1 and 1000µl are known as micropipettes whereas macropipettes dispense a greater volume.

In the market, there are several designs of pipettors available such as manual, electronic, single channel or multi channel pipettes. They designed for efficiency when working with changing tubes, plates, and dishes. Pipettors are designed for different purposes such as improving accuracy and decreasing the risk of repetitive motion.

Request a Sample Copy of This Report @ https://www.millioninsights.com/industry-reports/pipettors-market/request-sample

Global pipettors market is segmented on the basis of product, application and geography. Based on product, the pipettors industry is segmented into variable-volume, fixed-volume, single-channel, multi-channel and so on. Based on application, the pipettors market is segmented into hospitals, pharmaceuticals & biotech companies, clinical diagnostic labs, environmental, government agencies, process control industries and so on. Based on geography, the pipettors industry is segmented into North America, China, Europe, Japan, India, Southeast Asia and Latin America.

View Full Report with TOC @ https://www.millioninsights.com/industry-reports/pipettors-market

Market Segment:

Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Pipettors in these regions, from 2013 to 2025 (forecast), covering

North America

Europe

China

Japan

Southeast Asia

India

Global Pipettors market competition by top manufacturers, with production, price, revenue (value) and market share for each manufacturer; the top players including

Eppendorf

Capp ApS

Nichiryo

Hamilton

Sartorius

Thermo Fisher

Labnet

Kimble-Chase

Sarstedt

Aptaca

On the basis of the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate for each application, including

Pharmaceutical and biotech companies

Hospitals

Clinical diagnostic labs

Government agencies

Environmental

Process control industries

Table of Contents

1 Pipettors Market Overview

2 Global Pipettors Market Competition by Manufacturers

3 Global Pipettors Capacity, Production, Revenue (Value) by Region (2013-2018)

4 Global Pipettors Supply (Production), Consumption, Export, Import by Region (2013-2018)

5 Global Pipettors Production, Revenue (Value), Price Trend by Type

6 Global Pipettors Market Analysis by Application

7 Global Pipettors Manufacturers Profiles/Analysis

8 Pipettors Manufacturing Cost Analysis

9 Industrial Chain, Sourcing Strategy and Downstream Buyers

10 Marketing Strategy Analysis, Distributors/Traders

11 Market Effect Factors Analysis

12 Global Pipettors Market Forecast (2018-2025)

For More Details Visit @ million insights

#pipettors market #pipettors market size #pipettors market share #Pipettors Market Scope #pipettors #laboratory equipment

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liquidhandlingproduct · 7 months

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Adjustable vs. Fixed Volume Micropipettes - Which is Right for Your Lab?

In the precision-centric world of laboratory science, the choice of pipetting tools is crucial to the efficiency and accuracy of experiments. Among the essential tools in any lab are micropipettes, specifically adjustable and fixed volume micropipettes. Each type has its unique advantages, and choosing between them depends on your lab's specific needs. Let's delve into the characteristics of variable volume micropipettes, Microlit micropipettes (a renowned brand known for its precision tools), fixed volume micropipettes, and adjustable micropipettes to help you make an informed decision.

Variable Volume Micropipettes

Variable volume micropipettes are versatile tools that allow researchers to adjust the volume of liquid dispensed, making them suitable for a wide range of applications. This adjustability is particularly beneficial in experimental setups that require different volumes or in labs with varied pipetting needs. Variable volume micropipettes ensure that you can perform multiple tasks with the same pipette, reducing the need for multiple fixed volume pipettes and saving space and resources.

Microlit Micropipette

Microlit is a brand known for its high-quality, ergonomic pipettes designed to provide accurate and precise liquid measurement with reduced user fatigue. They offer both adjustable and fixed volume micropipettes, catering to the diverse needs of laboratories. Microlit micropipettes are engineered with user comfort in mind, featuring lightweight designs and easy volume adjustments. Their products are an excellent choice for labs looking for reliable, ergonomic pipetting solutions.

Fixed Volume Micropipettes

Fixed volume micropipettes are designed to dispense a specific volume of liquid. These pipettes offer simplicity and speed, as they eliminate the need to adjust the volume for each use, making them ideal for repetitive tasks requiring the same volume. Fixed volume micropipettes are known for their reliability and consistency, providing precise measurements every time. They are particularly useful in high-throughput settings where the same procedure is repeated multiple times.

Adjustable Micropipettes

Adjustable micropipettes combine the versatility of variable volume pipettes with the precision and ease of use characteristic of fixed volume models. They allow for quick adjustments of the dispensed volume, catering to a broad range of tasks within a single experiment. Adjustable micropipettes are perfect for labs that handle complex protocols requiring different volumes but still demand the precision and accuracy that fixed volume pipettes offer.

Which is Right for Your Lab?

Choosing between adjustable and fixed volume micropipettes depends on your lab's specific needs:

For Versatility and Broad Application Range: If your lab performs a wide variety of experiments that require different volumes, variable volume or adjustable micropipettes are the way to go. They offer the flexibility needed to accommodate diverse protocols.

For Repetitive Tasks and High Throughput: If you're working in an environment where speed and consistency are paramount, and the tasks involve repetitive pipetting of the same volume, fixed volume micropipettes offer the efficiency and reliability you need.

For Precision and Comfort: Brands like Microlit offer both adjustable and fixed volume micropipettes designed with ergonomic features to reduce fatigue and improve accuracy, making them a good choice regardless of the type you choose.

In conclusion, the decision between adjustable and fixed volume micropipettes should be guided by the specific requirements of your laboratory. Consider the nature of your experiments, the importance of versatility versus speed, and the ergonomic needs of your team. By carefully assessing these factors, you can select the pipetting tools that will best support your research and ensure the success of your lab's operations.

#variable volume micropipettes #microlit micropipette #fixed volume micropipettes #adjustable micropipettes

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microlitseo · 23 days

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Why Buying Micropipettes Online is the Best Choice for Researchers?

There are several instruments that can be counted upon when talking about liquid handling equipment in a laboratory. One of the commonly known instruments in a lab is micropipette pipette that comes in various forms. These are essential tools for any laboratory, particularly those involved in research. These precision instruments are used to measure and transfer small volumes of liquids accurately. While purchasing micropipettes from local suppliers has been the traditional method, buying them online has emerged as a convenient and cost-effective option. Here, we will inform you about the numerous benefits of purchasing micropipette online and why it is the preferred choice for many researchers.

Convenience and Accessibility

One of the most significant advantages of buying micropipettes online is the convenience it offers. Online retailers provide a vast selection of micropipettes from various brands, allowing researchers to compare different models, specifications, and prices without leaving their laboratories. This accessibility saves time and effort, especially for researchers located in remote areas or with limited access to local suppliers.

Competitive Pricing

Online marketplace often offer competitive micropipette price that’s suitable as per your requirement. With numerous sellers vying for customers, it's not uncommon to find significant discounts and deals on micropipettes. This can be particularly beneficial for researchers working on limited budgets, as it allows them to acquire high-quality instruments without breaking the bank. Additionally, online platforms often have customer reviews and ratings, which can help researchers make informed decisions about the reliability and performance of different micropipette models.

Wide Range of Options

Online retailers provide a much broader range of micropipette options compared to local suppliers. Whether you need a single-channel, multi-channel, or variable volume measurement micropipette, you can find it easily online. This variety ensures that researchers can select the most suitable instrument for their specific needs, whether it's for routine laboratory tasks or specialized research projects.

Easy Returns and Exchanges

Online retailers generally have flexible return and exchange policies, making it hassle-free for researchers to purchase micropipettes. If an instrument arrives damaged or doesn't meet expectations, it can be easily returned or exchanged. This level of customer service is often more convenient than dealing with local suppliers, who may have more stringent return policies.

Additional Features and Accessories

Many online retailers offer a wide range of additional features and accessories for micropipettes. This includes pipette tips, calibration certificates, and pipette stands. By purchasing these items along with the micropipettes, researchers can save time and effort and ensure that they have everything they need for their laboratory work.

Fast and Reliable Shipping

Online retailers typically offer fast and reliable shipping options. This means that researchers can receive their micropipettes quickly, minimizing downtime and ensuring that their work can continue uninterrupted. Additionally, many online retailers offer tracking information, allowing researchers to monitor the progress of their shipment and plan accordingly.

In conclusion, purchasing micropipettes online offers numerous benefits for researchers, including convenience, competitive pricing, a wide range of options, easy returns and exchanges, additional features and accessories, and fast and reliable shipping. By taking advantage of these benefits, researchers can save time, money, and effort while obtaining the high-quality micropipettes they need for their laboratory work.

#micropipette pipette #micropipette #micropipette price #buying a micropipette online #pipettes #pipette stands #purchasing micropipettes online

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healthcaretrends-blog · 6 years

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Pipettes and Accessories Market Outlook,Opportunity Analysis And Top Companies

The global pipettes and accessories market size was valued at US$ 1.3 billion in 2017 and is expected to witness a CAGR of 4.0% over the forecast period (2018 – 2026).

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Pipettes and Accessories Market Restraints

Pipettes and Accessories Market - Regional Insights

On the basis of region, the global pipettes and accessories market is segmented into North America, Latin America, Europe, Asia Pacific, Middle East, and Africa. North America is the largest market for biotechnology and pharmaceutical research and manufacturing and therefore, demand for pipettes and accessories is the highest in the region. According to a study published by the International Trade Administration in 2016, the U.S. is the major hub for drug manufacturing and is expected to grow considerably in future.

Asia Pacific pipettes and accessories market is expected to witness significant growth over the forecast period. This is owing to increasing clinical trials from biopharmaceutical industry in the region due to easy patient recruitment and availability of skilled professionals to conduct research experiments. This in turn leads to increasing number of research laboratories being set up in the region, thereby propelling demand for pipettes and accessories. For instance, in March 2017, Herbalife Company associated with Syngene established a new research and development lab at Bangalore, India.

According to the India Brand Equity Foundation June 2018 report, Government of India has reduced the approval time for new facilities to propel investments for drug manufacturers under the ‘Pharma Vision 2020’. Such initiatives are expected to attract foreign investors for the development of new manufacturing units, in turn increasing demand for pipettes and accessories during the forecast period.

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millioninsightsreports · 6 years

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Pipettors Market is set for a Potential Growth Worldwide: Excellent Technology Trends

01th November 2018: This Report Studies the Global Pipettors Market size, industry status and forecast, competition landscape and growth opportunity. This Research Report categorizes the Global Pipettors Industry by Companies, Region, Application, Type and end-use Industry.

Pipettors market is expected to grow at a substantial CAGR in the years to come. A pipettor, commonly termed as a “pipette” or “pipet” is a laboratory tool generally used in biology, chemistry, and medicine to dispense measured volume of liquid. Pipettes basically work by creation of partial vacuum above the chamber that holds the liquid and selectively releases this vacuum to draw up and give out according to the preferred volume. Pipettors dispensing between 1 and 1000µl are known as micropipettes whereas macropipettes dispense a greater volume.

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Europe is expected to hold the largest share in pipettors industry in the upcoming years. This could be attributed to the expected recovery in food processing, pharmaceutical, and biotechnology industries. Key players operating in the pipettors market are Eppendorf AG, Rainin, Hamilton, Sorensen, USA Scientific, Sartorius, Capp ApS, Nichiryo, Corning, BRAND, Nichiryo Co. Ltd., Hamilton, Kimble-Chase, Mettler Toledo International Inc., Labcon, Socorex Isba S.A, Sarstedt, VISTALAB, Thermo Fisher Scientific Inc., ECHNOLOGIE, Labnet, BrandTech, Tecan Group Home, Biotix, Bel-Art, Aptaca, Ohaus, Greiner, Scilogex, TPP, PerkinElmer, Bioplas, Argos Technologies, Dragon Laboratory and Gilson.

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#Laboratory Equipment Pipettors Market Size Pipettors Market Share Pipettors Market trends Pipettors Market Analysis

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plasticlabwareindia-blog · 6 years

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In laboratory, there should be full range of micropipette products for effective work according to the requirement. Do you have the full collection of micropipette products in your laboratory or not? If you are looking to purchase several kinds of micropipette products such as micropipette tips, multichannel micropipette, mini micropipette, micropipette fixed, variable volume micropipette and so on, then visit to Plastic Labware India. Plastic Labware India is a famous manufacturer, supplier and exporter of all types of laboratory equipments such as micropipette equipments. You can purchase at market comparable price. For more info, call on: 9810867957 | Email on: [email protected] http://www.plasticlabwareindia.com/Product/MICROPIPETTE-PRODUCTS/74

#micropipette products #mini micropipette #multichannel micropipette #fixed micropipette #micropipette equipments

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microlitusa · 4 years

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12 Channel Pipettes | Multichannel Micropipette | Microlit USA

Microlit is offering the 12 channel micropipette to improve your testing facility. This Multichannel Pipette have universal tipcone to work with all internationally accepted tips, Lightweight with soft grip to give maximum user comfort and fully autoclavable at 121°C to ensure lab safety from cross contamination. For product inquiry or details, please visit the website https://www.microlit.us/product-category/micropipettes/

#12 channel micropipette #12 channel pipette #mulitchannel micropipette #multichannel pipette #micropipette #pipette #electronic mutlichannel pipette #electronic mutlichannel micropipette #variable volume multichannel pipette #fixed volume multichannel pipette

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elizabethmock1248-blog · 7 years

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Micropipette Market - Prominent Players & Forecast 2017 - 2025

Micropipette is a laboratory tool used to measure and transfer a small volume of solution. The micropipette has an extensive application in the fields of molecular biology, biochemistry, immunology, cell culture, analytical chemistry, microbiology, and pharmaceutical and biotechnology companies. There are two important parts of micropipettes; the main body and disposable tips. The main body is autoclavable whereas the tips are disposables. The piston in the body creates the vacuum to aspirate the solution inside the tip, and when the vacuum is released, the solution is dispensed. Micropipettes provide a precise and accurate measure of solutions ranging from 0.1 µL to 1,000 µL and are available in different designs, sizes, channels, and modes of operation. Traditionally, single channel manual micropipettes were most commonly used, but over a period of time with increasing demand for more accuracy in sample measurement and improved work efficiency, electronic multichannel micropipettes have been developed. The electronic multichannel micropipettes are more precise and faster than manual micropipettes, and provide greater efficiency increasing the productivity in laboratories.

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Micropipettes are essential and integral tools for carrying out various laboratory activities on a day-to-day basis. The global micropipette market is projected to be driven by increased clinical R&D budgets both by governments and commercial players toward the diagnosis of infectious diseases and development of novel therapeutic drugs for the treatment of several diseases. There is increasing demand for automated and electronic micropipettes by researchers to reduce time in repetitive pipetting procedures, which is likely to drive the market growth during the forecast period. In addition, growing incidence and prevalence of infectious diseases worldwide is likely to increase the demand for diagnostic procedures. Several clinical procedures and techniques such as ELISA tests, western blotting, protein assays, PCRs, and enzyme activity assays are extensively used for the diagnosis of various diseases and research and development of therapeutic drugs. However, the high cost of electronic and automated micropipettes is likely to hamper the growth of the global micropipette market. In addition, lack of skilled professionals in underdeveloped countries and to some extent in developing countries is projected to be a restraining factor for the market growth during the forecast period.

The global micropipette market is broadly segmented based on type, design, mode of operation, volume, size, end-user, and region. On the basis of type, the market is segmented into single channel micropipettes and multiple channel micropipettes. The single channel micropipettes segment is projected to dominate the market during the forecast period. In terms of design, the market is segmented into air displacement micropipettes and positive displacement micropipettes. On the basis of mode of operation, the market can be divided into manual mode and electronic mode. On the basis of volume, the market is segmented into fixed volume and variable volume micropipettes. These are available in different sizes based on the need of end-users such as P2, P10, P20, P100, P200, and P1000. On the basis of end-user, the market is segmented into hospitals, diagnostics centers, clinical research organizations, blood banks, pharmaceutical, chemical, and biotechnology companies, and academic and research institutes.

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Geographically, the global micropipette market is segmented into five regions: North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. North America is projected to dominate the market during the forecast period. Europe is anticipated to be the second leading market for micropipette. Well-established health care infrastructure, high R&D budgets by both governments as well as private players, and early adoption of modern technology are likely to boost the growth of the market in these regions. Asia Pacific is projected to expand at an exponential growth rate during the forecast period owing to emerging economies, growing health care industry, and increasing pharmaceutical and biotechnology investments in developing countries such as India, China, and Malaysia.

Key players operating in the global micropipette market include BrandTech Scientific, Inc., Eppendorf AG, Capp ApS, Gilson, Inc., Hamilton Company, Drummond Scientific Company, Merck KGaA, Heathrow Scientific, INTEGRA Biosciences AG, and Thermo Fisher Scientific Inc.

The report offers a comprehensive evaluation of the market. It does so via in-depth qualitative insights, historical data, and verifiable projections about market size. The projections featured in the report have been derived using proven research methodologies and assumptions. By doing so, the research report serves as a repository of analysis and information for every facet of the market, including but not limited to: Regional markets, technology, types, and applications.

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