Customized Pipetting - Harnessing the Power of Variable Volume Micropipettes

In the realm of laboratory work, precision is paramount. Whether you're measuring out reagents for a delicate experiment or transferring samples for analysis, having the right tools can make all the difference. Micropipettes are essential instruments for precise liquid handling, and among them, variable volume micropipettes stand out for their versatility and adaptability. In this blog post, we'll explore how variable volume micropipettes empower researchers to customize their pipetting tasks, revolutionizing the way experiments are conducted in laboratories worldwide.

Understanding Micropipettes: Variable vs. Fixed Volume

Micropipettes are handheld devices used to accurately measure and transfer small volumes of liquid. While fixed volume micropipettes dispense a set volume of liquid with each use, variable volume micropipettes offer the flexibility to adjust the volume within a specified range. This adjustability allows researchers to customize their pipetting tasks according to the specific requirements of their experiments.

The Power of Variable Volume Micropipettes

Variable volume micropipettes offer several advantages over fixed volume micropipettes:

Versatility: Variable volume micropipettes can accommodate a wide range of volumes, allowing researchers to handle a variety of liquid samples with a single instrument.

Precision: The ability to adjust the volume ensures precise dispensing, minimizing errors and improving the reproducibility of experimental results.

Customization: Variable volume micropipettes empower researchers to tailor their pipetting tasks to meet the unique needs of their experiments, whether it's performing serial dilutions, setting up PCR reactions, or preparing samples for analysis.

Applications of Variable Volume Micropipettes

Variable volume micropipettes find applications across various laboratory disciplines, including molecular biology, biochemistry, microbiology, and more. They are used for tasks such as sample preparation, reagent dispensing, cell culture work, and enzyme assays, among others. Their versatility and precision make them indispensable tools for researchers working in diverse fields.

Choosing the Right Pipette for Your Lab

When selecting micropipettes for your lab, consider factors such as accuracy, precision, ergonomics, and ease of use. Variable volume micropipettes offer researchers the flexibility and control needed to customize their pipetting tasks, making them an essential addition to any laboratory.

Conclusion

Variable volume micropipettes represent a significant advancement in laboratory technology, allowing researchers to customize their pipetting tasks with precision and ease. By harnessing the power of variable volume micropipettes, researchers can tailor their experiments to meet specific requirements, leading to more accurate and reliable results. With customized pipetting, researchers can unlock new possibilities and push the boundaries of scientific discovery.

Fixed Volume Micro Pipette LB-21FVP

Labotronics fixed-volume micropipette offers pipetting of 5000µL with precise volume-locking, a low-force ejection mechanism, and high-temperature autoclave compatibility at 121°C. With durable, chemically resistant tip cones, it’s ideal for rigorous lab tasks that demand consistent accuracy and endurance.

MICROLIT Nero®, an exclusive range of ergonomic micropipettes with advanced technologies like UniCal® and μAir® – that ensures high precision and accuracy in practical lab environments. It is built by our in-house expert team of Product Design Engineers. It is available in Multi-Channel Fixed Volume and Variable Volume models.

The most noted differentiator of MICROLIT Nero® is its calibration system – the UniCal® technology. This unique calibration mechanism allows quick in-lab calibration in a single operation without disengaging the digits from the plunger mechanism. The μAir® technology in the MICROLIT Nero® is another unique feature that helps minimize the extra spaces and gaps, reducing the dead air space between the tip cone and the piston. The idea behind it was to reduce the air compression and enable the user to achieve precision in practical lab conditions.

10 Types of Laboratory Glassware Every Scientist Should Know

When it comes to research and contributing to science through experimentation, all scientific laboratory glassware is of utmost importance. Whether it is chemistry, biology or any other scientific field, the correct glassware is essential for getting precise results and completing processes efficiently. The leading laboratory glassware manufacturers in India are equipped with different kinds of high-quality Laboratory Glassware to cater to the diverse demands of scientists. In this Blog, we will explore ten essential types of laboratory glassware that every scientist should be familiar with.

10 Essential Laboratory Glassware That Every Scientist Should Know

Flasks

Flasks can be broadly classified into 2 categories; basically, there are Erlenmeyer flasks and volumetric flasks. An Erlenmeyer flask is conical so it has a narrow glass neck so it is good for swirling liquid without spilling it out. Volumetric flasks have very distinctive shaped bodies and are for making accurate measurements of specific volumes most often for preparing dilutions.

Beakers

A beaker is a cylindrical shape with a flat bottom and is usually made from glass or plastic. The beakers are employed in mixing as well as in heating and stirring the liquids. Beakers come in a variety of shapes and sizes promoting the accurate measurement of volumes by the scientist. 

Pipettes

Pipettes are very useful devices when accurate measurements of small volumes are necessary. There are various kinds of Pipettes like the volumetric ones, which help in making precision and micropipettes for small amounts. Pipettes are of help in experimental procedures where accuracy in liquid transfer is needed.

Test Tubes

Test tubes are small-sized cylindrical containers made of glass whose function is to contain, combine, or heat small amounts of certain substances. Various sized test tubes are available and they are typically used for qualitative analysis and in experiments. Test tubes are very common in every laboratory and allow for easy and quick reactions and monitoring of the outcome of the reactions.

Burettes

A burette is a long calibrated enclosed glass tube with an aperture at its lower end, which is fixed and is used in dispensing liquid chemicals in specific volumes, more commonly during the titration. They are structured in such a way that controlled amounts of fluids can be expelled which is very crucial in analytical chemistry.

According to Wikipedia, A burette is a graduated glass tube used for titrations that has a tap at one end to dispense known volumes of a liquid. It is a long, graded glass tube with a tapered capillary tube at the stopcock's output and a stopcock at the lower end. The stopcock valve regulates the liquid flow from the tube to the burette tip.

Petri Dishes

Petri dishes are shallow and flat circular dishes used for microbiological study and for the maintenance of solid samples. Constructed from glass or composite polymers they are used to maintain bacterium, fungus, or other specimens in a laboratory. The petri dish is very useful when working in the fields of microbiology and cell cultures.

Funnels

Funnels can be defined as implements used to direct liquids and powdered substances into narrow-necked vessels. They often come in handy in the process of filtering substances or pouring out liquids into containers such as beakers and flasks. Funnels may be manufactured out of glass and plastic materials and may at times incorporate filter paper inside for filtration purposes.

Crucibles

A crucible is a type of vessel made of heat-proof materials which is usually small in size and is used to heat a substance to extreme temperatures. In chemistry, crucibles are crucial in experiments that involve melting, combustion, or high-temperature reactions of materials since these activities generate high heat. Porcelain, glass, or metal containers are all examples of materials from which crucibles can be made.

Reagent Bottles

The term ‘reagent bottle’ applies to any container for the reasonable or safe storage of any chemical substances. They employ rubber closing to prevent contamination as well as the evaporation of the internal mixtures. The laboratory also makes sure that there is proper storage of the reagent bottles and that their labels are indicated.

Desiccators

Desiccators are airtight containers filled with a desiccant, which pulls moisture out from the surrounding environment. They serve to keep hygroscopic materials or sealed items that require to be dry. The use of desiccators is very important, especially in laboratories where moisture is a crucial factor to consider.

Why Choose SciLab Export for Your Laboratory Glassware Needs?

As one of the best laboratory glassware manufacturers in India, SciLab Export strives to offer quality laboratory glassware that is tailored toward scientists and researchers in general. We have the following advantages, which you should consider when sourcing for laboratory glassware from SciLab Export:

The caliber of Service: All kinds of laboratory glassware at SciLab Export are manufactured in compliance with undisputable quality control which is above the international standard. We surely manufacture products that are strong enough to ensure accuracy over a long period.

Product Range: We have a full range of laboratory glassware from simple beakers, flasks, and test tubes to special purposes glassware, for instance, desiccators and crucibles. 

Personalization: Different laboratories use different kinds of glass wares, and therefore SciLab Export understands this need and offers laboratory glassware customization.

Conclusion

It is equally important to familiarize yourself with the different forms of laboratory glassware. Each piece of glassware from beakers and flasks to pipettes and desiccators has a vital purpose that helps advances in experiments and research. As one of the best Laboratory Glassware manufacturers in India, SciLab Export is equipped to provide quality, variety, and support for all your laboratory glassware requirements. With the correct Laboratory Glassware aimed at performing research work, you can be sure of getting the maximum possible results, which makes this item an important part of the laboratory setup.

Micropipette Troubleshooting: How to Fix Common Pipetting Issues

Accurate pipetting is essential for reliable lab work, and maintaining consistency can be difficult when issues arise. At Accumax, we recognize the significance of precise liquid handling for achieving the best results. Here’s a guide to help you troubleshoot and resolve some common pipetting problems.

1. Inconsistent Volume Dispensing Cause:

This issue often arises from improper calibration or pipetting technique.

Solution: Make it a habit to regularly calibrate your micropipettes and practice smooth, consistent plunger operation. Avoid pressing or releasing the plunger too quickly, as this can lead to inconsistencies.

2. Dripping or Leaking Tips Cause: A poor tip fit or damaged internal seals are common causes.

Solution: Always use high-quality tips that fit securely on the pipette. Regularly check O-rings and seals, replacing them as needed to ensure a proper seal.

3. Air Bubbles in the Sample Cause: Incorrect aspiration techniques, such as tilting the pipette or aspirating too quickly, can introduce air bubbles.

Solution: Keep the pipette vertical while aspirating, and pull the liquid up at a controlled, steady speed. Pre-wetting the tip before aspiration can also help improve volume consistency.

4. Sticky Plunger Movement Cause: This can happen due to residue buildup or mechanical wear over time.

Solution: Clean the piston regularly and lubricate it according to the manufacturer’s guidelines. If the issue persists, consider having the pipette serviced to prevent further wear or damage.

5. Incorrect Volume Delivery Cause: User error or damage to the pipette can lead to inaccurate volume delivery.

Solution: Always pre-wet the pipette tip for viscous liquids, maintain a consistent speed while pipetting, and visually inspect the pipette mechanism for any signs of damage.

Best Practices for Reliable Pipetting Regular Maintenance: Make it a habit to clean and calibrate your pipettes regularly.

Proper Tip Usage: Always check that the tips you use are compatible and of good quality to ensure a proper seal.

Consistent Technique: Develop a steady hand and apply uniform pressure to minimize errors.

Precision in pipetting is essential in any laboratory. At Accumax, we are dedicated to enhancing your workflow with dependable equipment and support. We are a renowned global manufacturer of laboratory liquid handling instruments since last 2 decades. By following these guidelines, you can troubleshoot effectively and uphold the high standards your lab requires.

Read More:  Micropipette Troubleshooting: How to Fix Common Pipetting Issues

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/

7.26.18 // 10:00am // things no one ever tells you about research 

so you just landed a position as a "research assistant" huh? whether you're padding your resume, gpa, or you're one of those people who's just super driven and passionate, you might want to read this.. ;)

this isn't super back to school relevant, but i had an epiphany while i was at lab today (waiting for shit as usual) and wanted to make this. this advice is definitely a bit more tailored to biology/medical labs, but def includes some stuff that applies to a bunch of fields! you know the drill, more under the cut! xoxo, m

1. it's not as glamorous as you think it'll be. you're prob thinking “oh yeah i’m mature and i know how the world works. obviously you don’t cure cancer in 3 days.” that is true. (i’m not making fun i actually had a similar mindset). but it will take a *long* time. i’m talking months and years. you might do a a bunch of different experiments and try to get them to work and they never do. i literally worked in a lab for 6 months and didn’t produce a single useful result. it’s also possible it might start feeling like a mindless task or chore. what i’m trying to say is, don’t expect to feel like you’re changing the world. or even that you’re on the road to changing the world. you might have to go through a lot of failure and repetition to get even a little close

2. there’s a lot of waiting. this is definitely more specific to biology/chemistry type labs. but you will be sitting around waiting for reactions. a lot. bring something to do with you.

3. everything takes longer than you think it will. i’m serious. estimate how long something will take if you go slow, take your time, and account for something going wrong. now add at least 15 minutes to that. trust me.

4. you’ll screw up. a lot. you’ll pipette the wrong thing into the tube. you’ll drop glassware. you’ll forget to refrigerate something. maybe you’ll mislabel. don’t beat yourself up too much. be mindful and learn from mistakes, but know that everyone makes them. pi’s (principal investigators aka your boss/the researcher you work for) are generally pretty forgiving, especially in the first bit.

5. don’t mix bleach with anything but water. please don’t do it. take it from someone who has. it was terrifying.

6. you need a schedule. i don’t mean that you have hours and work 9-5. both of the labs i’ve worked in couldn’t care less when i came in. however, you need to plan things. if you’re working with cells, they’re a pain in the ass. once you get familiar with them, you’ll need to map out what/when you want to run experiments so you can make sure they’re ready at that time. or if you need to work with someone else to run experiments. for example, i work with a technician for certain assays and need to make appointments with her. or some processes are time sensitive and once you start them, you can’t stop until they’re over. don’t try to cram too much into one day or you’ll never go home. 

7. weekends aren’t really a thing. ok this depends on how you structure your time/if things cooperate (hint: they never do)/what sort of research you’re doing. but i go into lab at least once every weekend pretty much. honestly having the whole lab to myself is kinda relaxing lol

8. bring headphones. otherwise you might go crazy from not being able to talk to anyone. also they can help you concentrate.

9. go slow. i mean this advice comes up in relation to everything. but it is *so important* for lab work. if you’re rushed or nervous or both, you’re way more prone to making mistakes. and lab reagents are expensive as all hell. seriously. look up the price of some sybr green. 

10. ask questions. the other people in your lab/shared lab space are great resources. generally they’re pretty nice. obviously, senior members know a lot more than you do. but also other undergrads. someone else might be an expert in something you’re just learning. it’ll make sure you don’t break/waste anything and give you peace of mind. at the very least, you can share some accountability if you screw up lol.

11. check everything. if you’ve done an experiment a bunch of times and it still doesn’t work even though you fixed everything you thought you were doing wrong and asked a bunch of questions, you’re probably missing something. ideally, have someone watch you do the process. if not, go over your protocol with them. every single step. and every detail. i literally thought i was doing something wrong for months because i was using human dna primers and not mouse ones. i had checked everything else, but it never occurred to me to verify that. 

12. document everything. as you learn, you’ll get more familiar and figure out what works best. you remember it now, but if you haven’t done something in 3 weeks and need to remember that one trick you figured out, you’ll be kicking yourself if you don’t write it down.

>> similar to documenting, label everything. know *exactly* what’s in a bottle because you’ll remember 3 days after you made it but in 3 months? might land you in trouble.

lightning round! mostly bio/chem/wet lab stuff!

- check the volume your micropipette is set to uptake. just because you grabbed the p1000 doesn’t mean it will automatically be sucking up 1mL

- accidentally sucked liquid up into the body of your automatic pipette? now it doesn’t work? you didn’t break the whole thing, it just needs a new filter. they’re about $5.

- always label your damn tubes. before you put stuff in them.

- a quick spin in the centrifuge is your best friend. especially if there was supposed to be 5 uL in that tube but you’re only getting 3.5

- put your agarose gel in the fridge until really hard before removing the comb. also remove the comb once the gel is submerged in buffer.

- it’s ok to use your other hand to brace the pipette if you’re shaky. it’ll save you a lot of grief.

- use old pipette boxes as racks for smaller tubes

- cells wait for nothing. not even new year’s day. 

- use a timer. i’ve forgotten about things so many times, especially when i’m multitasking

- make note of any prep work that needs to be done before an experiment. (ex: set the centrifuge to 4 degrees) now you’ll know to do it beforehand and save yourself time.

- make sure equipment is available. before starting anything, make sure the stuff you’ll need to use will be ready when you need it. put a post it on the machine if you have to.

- keep a jacket in lab. i guarantee it will be cold. if you work in lab during the school year, you might want to keep some closed toed shoes and long pants there too depending on the “dress code”.

- learn basic lab maintenance/where stuff is asap. it sucks to be the only one in lab when you run out of something and don’t know how to fix that.

hope this was useful and let me know if you want to know more on this subject! or on anything. you know i love suggestions. xoxo, m

Measuring Pipette

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

Streamlined Precision: Meet Our Fixed Volume Micropipettes

Experience the pinnacle of accuracy with our fixed-volume micropipettes. Engineered with ergonomic finesse and advanced technology, these micropipettes streamline liquid handling tasks with unparalleled precision. From research endeavours to routine lab protocols, achieve consistent results with ease and confidence. Discover the power of precision with Microlit's fixed-volume micropipettes—your trusted partner in scientific excellence. Explore our range now and revolutionize your pipetting experience today.

Fixed Volume Micro Pipette LB-20FVP

Labotronics fixed-volume micropipette combines advanced pipetting of 2000µL with user comfort. Its secure volume-lock prevents drift, while an ergonomic, low-force ejection system ensures smooth handling. Autoclavable at 121°C and made with chemical-resistant, spring-loaded tip cones and design with high-precision and durability.

Top Models of Liquid Handling Instruments in 2024

As laboratory research and scientific work continue to evolve, the need for precise and efficient liquid handling instruments becomes even more vital. At Microlit, we take pride in designing and delivering high-quality liquid handling instruments that cater to the ever-demanding needs of modern laboratories. In 2024, our advanced products continue to set the benchmark for accuracy, ease of use, and innovative design. Here, we explore the top Microlit models that are redefining liquid handling practices this year.

1. Microlit Beatus Series – Excellence in Electronic Pipetting

The Microlit Beatus Series has become a standout in the electronic pipette category, offering unmatched convenience and performance. Ideal for high-throughput laboratories, these electronic pipettes feature an intuitive interface that allows users to switch seamlessly between modes, such as multi-dispensing and reverse pipetting. The programmable functions ensure accuracy and reduce user fatigue, making them essential for busy lab environments.

Key Features:

Effortless multi-dispensing for repetitive tasks

User-friendly digital interface

High precision with adjustable speed control

2. Microlit E-Burette – Redefining Titration Precision

The Microlit E-Burette is perfect for laboratories that require precise titration. This motorized burette combines modern technology with user-centric design to simplify the process of titration while enhancing accuracy. With an easy-to-read digital display and smooth motorized control, the E-Burette helps researchers achieve consistent results without the errors associated with manual titration.

Key Features:

Digital display for easy monitoring

Precision motorized dispensing

Easy handling and adaptable to various titration tasks

3. Microlit RBO Micropipettes – Reliable Everyday Pipetting

The Microlit RBO Micropipettes are trusted by scientists for their robust design and seamless performance. Available in both adjustable and fixed volume variants, these micropipettes are known for their soft plunger movement, lightweight build, and high accuracy. They are ideal for routine lab tasks where dependable performance is a must.

Key Features:

Available in both single-channel and multi-channel formats

Ergonomic design for comfortable use

Accurate and reliable performance for various volumes

4. Microlit Lentus Bottle Top Dispensers – Safe and Efficient Dispensing

When it comes to handling reagents directly from bottles, the Microlit Lentus Bottle Top Dispensers are the perfect choice. These dispensers feature a recirculation valve that minimizes waste and ensures precise dispensing with every use. Built with chemical-resistant materials, they are suited for handling both standard and aggressive liquids safely.

Key Features:

Recirculation valve to prevent liquid waste

Chemically resistant construction

Smooth and accurate dispensing with adjustable volume control

5. Microlit Scitus Bottle Top Dispensers – Precision Redefined

The Microlit Scitus series offers high accuracy for laboratories that need precision in liquid dispensing. With advanced pipette calibration options and a reliable build, these dispensers are perfect for rigorous lab protocols that demand exact measurements. The Scitus models come with a smooth piston movement for precise and effortless operation. 

Key Features:

Advanced calibration for precise results

Easy-to-operate design with smooth movement

Suitable for a variety of liquid handling applications

6. Microlit ULTIMUS Bottle Top Dispensers – Versatility in Action

The Microlit ULTIMUS series takes versatility and ease of use to new heights. Designed with user safety and convenience in mind, these dispensers come equipped with additional safety valves and adaptable nozzle features. They are engineered to handle a range of liquids efficiently, making them a versatile tool in any laboratory automation.

Key Features:

Safety valve for secure use

Adaptable nozzle for various container sizes

Reliable and consistent dispensing performance

Conclusion

Microlit is proud to be at the forefront of liquid handling technology, offering a range of products that cater to different laboratory needs. Whether you are pipetting, titrating, or dispensing, our instruments are designed to provide precision, reliability, and ease of use. From the sophisticated Microlit Beatus Series and versatile RBO Micropipettes to the reliable Lentus and Scitus bottle top dispensers, we have a solution for every liquid handling requirement in 2024.

With Microlit products, laboratories can ensure that their liquid handling processes are efficient, accurate, and compliant with the highest standards of quality. Explore our innovative models and elevate your laboratory practices with Microlit.

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

Micropipette Troubleshooting: How to Fix Common Pipetting Issues  

Find efficient solutions for the troubleshooting of micropipettes. Common pipetting complications, including inaccurate volume settings, seeping tips, and inconsistent outcomes, are addressed in this guide. Discover the methods for diagnosing and resolving these issues in order to improve the precision of your laboratory work. Regardless of whether you are encountering calibration errors or experiencing difficulty with tip compatibility, these troubleshooting tactics will assist in the optimization of your pipetting technique and the preservation of dependable performance. Ideally suited for laboratory professionals who prioritize precision and efficiency.

Single Channel Pipette | Lab Pipette | Microlit USA

Microlit offers the standard quality fixed volume pipette for accurate and precise sampling and dispensing of liquids. The fixed volume micropipette is lightweight and have soft grip that gives most comfortable experience to users. This lab pipette comes with fully autoclavable at 121° C, 15psi with calibrated certificate. For more details, https://www.microlit.us/product-category/micropipettes/