#multi-channel pipette
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No. of Channels: 8; Volume Range: 50-300 mu-l; Increment: 5 mu/l; Test Volume: 300 mu/l-lt-hr-gt-150-mu-l-lt-hr-gt-50-mu-l; Accuracy error: 0-70 lt-hr-gt-1-00-lt-hr-gt-1-50; Shop online at Labtron.cc.
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Variable Volume Multi Channel Fully Autoclavable Pipette
Variable Volume Multi-Channel Fully autoclavable pipettes Material: Polycarbonate Volume settings can be clearly read through the digital display Effortless pipetting accessibility with a rotatable dispensing head
#Pipette and Pipettors#Variable Volume Multi Channel Fully Autoclavable Pipette#Pipettes#Lab Pipettes
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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.
#liquid handling instruments#electronic pipettes#E-Burette#RBO Micropipettes#Lentus Bottle Top Dispensers
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Explore Sai Scientific & Surgical's Micro Pipette fix Volume In Mumbai, designed for accuracy in liquid handling. Ideal for labs, these ergonomic pipettes ensure reliable results in Mumbai’s diverse research environment.
#Micro Pipette fix Volume In Mumbai#Mini water Pump Machine in Mumbai#Ford Cup with viscometer In Mumbai#Measuring instrument Manufacturer In Mumbai#Testing Instruments In Mumbai
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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
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Laboratory Equipment: Essential Tools for Research and Development
Microscopes are indispensable tools for laboratories as they enable researchers to see structures and features too small for the naked eye. Different types of microscopes like compound, stereo, and electron microscopes allow examination of cells, tissues and various samples at different levels of magnification. Compound microscopes have interchangeable objectives and ocular lenses that provide low to high magnifications from 40X to 1000X. Stereo microscopes give low magnifications from 6X to 120X and are ideal for viewing three-dimensional samples. Electron microscopes have resolutions down to the nanometer level and are crucial for cellular and molecular analysis. Microscopes continue advancing with techniques like fluorescence and confocal microscopy for live cell imaging. Laboratory Equipment: Pipettes and Dispensers Handling small liquid volumes accurately is critical in many experimental procedures. Pipettes available in various fixed and adjustable volumes are used to transfer samples, reagents, drugs and more between tubes, plates or vessels. Manual pipettes come in single channel and multichannel varieties for quickly dispensing set volumes. Electronic pipettes automate repetitive pipetting with adjustable speed and greater reproducibility. Dispensers are also available for liquid handling, dispensing adhesive liquids, organic solvents and even highly viscous materials. Automated liquid handlers are large capital equipment that can pipette thousands of samples in parallel for high throughput experiments. Centrifuges Centrifugation is a fundamental separation technique used across all types of laboratories. Benchtop centrifuges are simple bi-phasic models suitable for routine pelleting of cells, small particles and precipitates. They provide RCFs (relative centrifugal forces) from 1000 to 12000g. Preparative centrifuges have larger rotors and capacities for voluminous sample processing. Ultracentrifuges enable high speed sedimentation by developing enormous RCFs over 100,000g. Models for ultracentrifugation employ zonal, swinging bucket or fixed angle rotors depending on the separation goals. Selecting the right centrifuge based on sample type, size and desired separations is key for optimizing results. Laboratory Equipment: Spectrophotometers and Colorimeters Quantifying analytes through detection and measurement of light absorbance or transmittance is done using spectrophotometers and colorimeters. They are indispensable in analytical chemistry, biochemistry and molecular biology labs. Single beam spectrophotometers detect absorbance of a sample against a blank reference. Double or triple beam instruments allow simultaneous measurement of multiple samples and references. Colorimeters are compact single wavelength devices ideal for dedicated absorbance assays. Modern multi-mode readers combine varied features like fluorescence, luminescence, absorbance in a single box for versatility. Automated instruments speed up high throughput absorbance measurements in microplates. Advancements in detector and optic materials continue enhancing sensitivity and accuracy. Laboratory Equipment: Water Purification Systems Pure water is imperative for numerous analytical procedures and as a solvent in chemical reactions. Laboratories install point-of-use or centralized water purification systems to generate different grades of water for their needs. Reverse osmosis systems yield high purity water from tap or well sources. Ion exchange columns further polish RO water to Type I standards. Advanced systems integrate UV oxidation to minimize microbial growth and sub-micron filtration for generating ultra pure or Milli-Q water. Water qualities are certified through resistivity, TOC and particle testing. Laboratories also require simple dispensers of purified water right at the bench. Mobile cart-based purifiers deliver purified water anywhere as needed. Integrated systems optimize space and centralize management of water purification.
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A micropipette is a precision instrument used in laboratories for accurately measuring and transferring small volumes of liquid. It's essential for tasks that demand high accuracy and reproducibility.
At Microlit, we offer a comprehensive Micropipette Product Guide to help you select the best micropipette for your needs. Our guide covers everything from single-channel to multi-channel micropipettes, highlighting their unique features and benefits. With our advanced technology and ergonomic designs, Microlit micropipettes ensure reliable performance and ease of use, making your lab work more efficient and precise.
Whether you're conducting intricate experiments or routine procedures, having the right micropipette can significantly impact your results. Explore our Micropipette Product Guide today and discover the perfect tool for your liquid handling requirements.
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Horizontal Electrophoresis System Weight 3.8 kg
Labtron Horizontal Electrophoresis System features a polycarbonate gel casting material, 7 rows of combs, and offers ultra-high resolution separation over extended run times. A buffer volume of 2000 ml, and a sample capacity ranging from 19 to 364. It includes multi-channel pipette compatible combs, dismountable electrodes, automatic power off upon lid removal.
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#Electronic Pipettes Market#Electronic Pipettes Market Report#Electronic Pipettes Market Trends#Electronic Pipettes Market Growth#Electronic Pipettes Market Research#Electronic Pipettes Market Research Report
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Fixed Volume Pipettes
A fixed volume of liquid can be precisely measured and transferred using fixed volume pipettes, which are laboratory tools. These pipettes are widely employed in many scientific fields, such as biology, chemistry, and medical research, and are intended for uses where a constant and reproducible volume is needed. There are single-channel and multi-channel versions of fixed volume pipettes. Shop online at Labtron.us
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STONYLAB 8-Channel Pipettor Controller
50 to 300 ul
Sold only for $225.39
Featuring ergonomic design and intuitive operating concept, StonyLab 8 Channels Pipettor is ideal to handle multiple samples simultaneously with high accuracy and efficiency
Volume range: 50 to 300 uL; Volume setting is continuously adjustable by turning thumb wheel with a clear volume indicator; minimum increment per single adjustment: 5 uL
Tip cone is autoclavable and can be steam sterilized at 121℃ for up to 20 minutes
Easy to recalibration if needed; Included color caps for conveniently mark different uses of pipettes in lab
Discover more at
💡A multi-channel pipettor, also known as a multi-channel pipette or multi-pipette, is a laboratory instrument used for accurately and efficiently dispensing small volumes of liquid into multiple containers simultaneously. It is commonly used in chemistry and molecular biology labs for tasks such as sample preparation, DNA sequencing, PCR (Polymerase Chain Reaction), and ELISA (Enzyme-Linked Immunosorbent Assay), among others. Multi-channel pipettors come in various configurations, typically with 8, 12, or 16 channels, allowing you to handle multiple samples at once.
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PakGent 1000ul Standard Universal Pipette Tips
1000ul Standard Universal Pipette Tips: These tips are designed for precision pipetting and provide a reliable, leak-proof seal. Their standard length is ideal for use in multi-channel pipettes and allow for accurate and comfortable handling.
Advantages of Using 1000ul Standard Universal Pipette Tips
The 1000ul Standard Universal Pipette Tips have a high volume capacity, making them ideal for handling larger volumes of liquids in the laboratory. The tips are versatile and compatible with a range of pipette models, making them a convenient choice in different settings. The standardized size of the tips reduces the risk of contamination, ensuring reliable and reproducible results.
With a high volume capacity, the 1000ul tips are efficient in handling larger volumes, saving time and increasing productivity. The tip size also reduces the amount of reagent waste, making them an economic and efficient choice. The universal design of the tips allows them to be used with various solutions and reagents, making them a go-to option for different laboratory applications.
Lastly, the tips are easy to handle and packaged in a convenient format for ease of dispensing.
In summary, the 1000ul Standard Universal Pipette Tips offer efficiency, convenience, and reliability in handling larger volumes, making them a valuable asset in laboratories.
Universal Compatibility for Enhanced Laboratory Efficiency: PakGent 1000ul Standard Universal Pipette Tips
When it comes to 100 to 1000ul pipette tips and micropipette tips 1000ul, compatibility with different pipette brands is essential for a wide range of laboratory settings. These tips are designed to be universally compatible, ensuring seamless integration with popular pipette brands. The precise design and manufacturing precision guarantee a secure fit without any leakage or risk of tip detachment. This broad compatibility allows researchers and technicians to confidently use these tips in various applications, from molecular biology and PCR to cell culture and liquid handling tasks. Enjoy the convenience and flexibility of using these tips with your preferred pipette brand, enhancing efficiency and accuracy in your laboratory work.
1000ul Standard Universal Pipette Tips FAQs
01
Can these pipette tips be used for both liquid and viscous samples?
Yes, these micro tips 1000ul are suitable for both liquid and viscous samples. The design ensures efficient pipetting for a wide range of sample viscosities.
02
Are these tips sterile?
Yes, our refill/rack pack are pre-sterilized using a validated process to ensure sample integrity and minimize contamination risk.
03
Can these tips be used for single-channel and multi-channel pipettes?
Yes, the standard length of these pipette tips makes them suitable for both single-channel and multi-channel pipettes. They provide accurate and comfortable handling in any application.
04
Can these tips be reused?
These tips are designed for single-use only and should be discarded after use to minimize the risk of contamination and ensure accurate and reliable results.
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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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Pipette Market - Forecast (2023 - 2028)
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Pipette Market size was valued at $1,538 million in 2020, and is anticipated to grow at a CAGR of 4.1% during the forecast period 2021-2026. Pipettes are used as a media dispenser to transfer liquids especially in laboratories. These are usually made of glass or plastic and used to dispense liquid in measurable amounts. Pipettes and its associated accessories come in a range of sizes and designs. They are used majorly in biotechnology and pharmaceutical applications. Pipettes are used to reduce the rate of contamination when transferring materials and also to increase accuracy of sampling. With the technological advancements in the healthcare sector, significant improvements are extensively being made in pipetting materials, from glass to high-grade plastics. Manufacturers are also extensively launching pipettes of several designs based on the different purposes with different levels of precision and accuracy, from single-piece pipettes to more complex electronic pipettes, which is estimated to enhance the growth of the pipettes market during the forecast period 2021-2026. The pipette industry growth rate is attributed to the various increasing investments in research and the study of cancer treatment methods, the amount of research being in molecular biology has increased exponentially which is poised in bringing new opportunities.
Report Coverage
The report: “Pipette Market Forecast (2021-2026)”, by Industry ARC, covers an in-depth analysis of the following segments of the Pipette Market:
By Category: Electronic and Manual.
By Channel Format: Single Channel and Multi-Channel.
By Volume: <0.1 µL, 0.1-20 µL, 20-300 µL, 300-500 µL, 500-1000 µL and >1000 µL.
By Volume Format: Adjustable Volume and Fixed Volume.
By Compound and Solution: Aqueous Solution, Viscous Solution, Volatile Compounds, Body Fluids, Nucleotide Solutions, Radioactive Compounds, Acid/Alkalis and Others.
By Application: Pharmaceutical Laboratories, Biotech Laboratories, Food & Beverage Laboratories, Forensics Laboratories, Chemical Laboratories, Cosmetics Laboratories and Others.
By Geography: North America (U.S, Canada, Mexico), Europe (Germany, UK, France, Italy, Spain, Russia and Others), APAC (China, Japan, India, South Korea, Australia and Others), South America(Brazil, Argentina and Others) and RoW (Middle East and Africa).
Key Takeaways
Geographically, North America region held the highest market share of 35.34% in 2020.
The factors such as the increasing use in biotechnology and pharmaceutical applications are amongst the major factor projected to impel growth of pipette market.
Additionally, factors such as investments in developing anti-cancer therapies and drugs are driving the market as the use of pipettes are high are to create opportunities paving a way for the growth in the market during forecast period 2021-2026.
Pipette Market Segment Analysis - By Volume Format
On the basis of volume format, adjustable volume segment accounted for the largest segmental revenue of the Pipette market in 2020. The large share can be attributed to the increasing demand of adjustable volume products and are raising the growth of this market. Furthermore, this segment is projected to dominate over the forecast period 2021-2026 with a CAGR of 4.3% various manufacturers such as Hamilton, Eppendorf, VistaLab Technologies, and many more are offering adjustable volume pipette that provides easy operation and reduces error which increases the production and demand of adjustable volume pipette that are further increasing the growth of this market.
Pipette Market Segment Analysis - By Volume
In 2020, on the basis of volume, <0.1 µL segment accounted for the largest segmental revenue of the pipette market on account of the fact that these laboratory tools that are used to measure and transfer very small volumes of solutions and extensively finds it application in the field of molecular biology, biochemistry, immunology, cell culture, etc. Moreover, this segment is projected to witness healthy growth throughout the forecast period 2021-2026 with a CAGR of 4.6% since these are usually disposable and are basically moulded from the highest-quality virgin polypropylene, ensuring consistency and subjected to strict and constant quality control is also set to increase the growth of the market during the forecast period 2021-2026.
Pipette Market Segment Analysis - By Geography
North America is the major region dominating the Pipette market with a market share of 35.34% in the year 2020. This can be attributed rising demand for pipetting products, increasing innovation of new electronic based products and growing investments in R&D activities is increasing the growth of the market in North America.
On the other hand, Asia-Pacific is projected to be the significant-growing market during the forecast period 2021-2026 owing to increasing prominence of this region in healthcare research and facilities during the forecast period 2021-2026. Apart from this, rising adoption of technologies for product innovation and increasing investments in research for biotechnology and microbiology applications is increasing the growth of the market in Asia Pacific region.
Pipette Market Drivers
Rising Demand in Molecular Biology
Pipettes are increasingly playing a prominent role in Molecular biology as the measurement needs to be precise and with zero error which can be attained only using pipettes. With increasing investments in research and the study of cancer treatment methods, the amount of research being in molecular biology has increased exponentially. This boost in demand is increasing the usage of the pipettes in the labs and demand for similar laboratory equipment is also increasing. Besides, the key players across the world are increasing their investment to produce high-quality pipettes owing to the growing demand and need for accuracy, which is driving the growth of the Pipettes market. For instance, Integra Biosciences is increasingly focusing on Voyager adjustable tip spacing pipettes to overcome the challenges associated with repetitive pipetting tasks in molecular biology to avoid burnout in the lab and speed up the research process by enhancing both reproducibility and throughput at the push of a button. Single-channel and multi-channel electronic pipettes are also increasingly being adopted in molecular biology to enable accurate and sterile liquid handling to prevent errors in dispensing the incorrect volume and cross-contamination, which is said to propel the growth of the pipettes market.
Growing Advancements In The Healthcare Sector
Biotechnology companies across the world are increasing their efforts to develop advanced products and solutions to treat diseases with zero error. Further, the growing pharmaceutical market added with investments in research and development, and surging drug approvals across the world are likely to propel the market. Global Research and Development (R&D) spending in healthcare industries is estimated to be around 32.8 U.S billion dollars in 2020. This is likely to grow with companies pumping in more money to improvise their products, which is driving the demand for the pipettes market. With the technological advancements in the healthcare sector, significant improvements are extensively being made in pipetting materials, from glass to high-grade plastics. Moreover, pipetting and ergonomics have become virtually inseparable aspects and significant advancements have been made at lowering stress and fatigue for users to reduce the number of reagents used in the processes to save costs and precision, which is creating a positive impact on the growth of the pipettes market.
#Pipette Market#Pipette Market Size#Pipette Market Share#Pipette Market Price#Pipette Market Growth#Pipette Market Forecast#Pipette
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