The Eppendorf Research plus pipette is the most advanced and ergonomic pipette available from Eppendorf. The pipette has been designed from the ground up to be the lightest and most ergonomic pipette while still maintaining the performance and robustness you have come to expect from Eppendorf. The ultra light Eppendorf Research plus pipette meets the highest needs in precision and accuracy – combined with ultimate ergonomics and increased flexibility.
- Volume adjustment: only a few turns to reach your desired volume
- Control button: very low operating force, color indicates pipette volume, positioned for perfect ergonomics
- Ejector: very low operating force, positioned for perfect ergonomics
- Volume display: 4 digits, magnifying shape
- Secondary adjustment display and opening: adjust your pipette to a liquid very different than water
- Eppendorf PerfectPiston™: ultra light piston made of Fortron® (not in 2.5 µL, 10 µL, 5 mL and 10 mL pipettes)
- Quick connection clip: remove lower part easily (not in 5 mL and 10 mL pipettes)
- Spring loaded tip cone: improved ergonomics, tight fit to the tip (not in 5 mL and 10 mL pipettes)
|0.1-2.5 µL||0.5-10 µL||2-20 µL, light grey||2-20 µL, yellow||10-100 µL||20-200 µL||30-300 µL||100-1,000 µL||0.5-5 mL||1-10 mL||8-channel, 0.5-10 µL||8-channel, 10-100 µL||8-channel, 30-300 µL||12-channel, 0.5-10 µL||12-channel, 10-100 µL||12-channel, 30-300 µL|
≤12.0%/0.1µL; ≤6.0%/0.25µL; ≤1.5%/1.25µL;
≤5.0%/0.5µL; ≤1.8%/1µL; ≤0.8%/5µL;
|≤1.5%/2µL; ≤0.6%/10µL; ≤0.3%/20µL||≤1.5%/2µL; ≤0.6%/10µL; ≤0.3%/20µL||≤1.0%/10µL; ≤0.3%/50µL; ≤0.2%/100µL||≤0.7%/20µL; ≤0.3%/100µL; ≤0.2%/200µL||≤0.7%/30µL; ≤0.3%/150µL; ≤0.2%/300µL||≤0.6%/100µL; ≤0.2%/500µL; ≤0.2%/1,000µL||≤0.6%/0.5mL; ≤0.25%/2.5mL; ≤0.15%/5mL||≤0.6%/1mL; ≤0.2%/5mL; ≤0.15%/10mL||
≤8.0%/0.5µL; ≤5.0%/1µL; ≤2.0%/5µL;
|≤2.0%/10µL; ≤0.8%/50µL; ≤0.3%/100µL||≤1.0%/30µL; ≤0.5%/150µL; ≤0.3%/300µL||
≤8.0%/0.5µL; ≤5.0%/1µL; ≤2.0%/5µL;
|≤2.0%/10µL; ≤0.8%/50µL; ≤0.3%/100µL||≤1.0%/30µL; ≤0.5%/150µL; ≤0.3%/300µL|
±48.0%/0.1µL; ±12.0%/0.25µL; ±2.5%/1.25µL;
±8.0%/0.5µL; ±2.5%/1µL; ±1.5%/5µL;
|±5.0%/2µL; ±1.2%/10µL; ±1.0%/20µL||±5.0%/2µL; ±1.2%/10µL; ±1.0%/20µL||±3.0%/10µL; ±1.0%/50µL; ±0.8%/100µL||±2.5%/20µL; ±1.0%/100µL; ±0.6%/200µL||±2.5%/30µL; ±1.0%/150µL; ±0.6%/300µL||±2.5%/30µL; ±1.0%/150µL; ±0.6%/300µL||±2.4%/0.5mL; ±1.2%/2.5mL; ±0.6%/5mL||±3.0%/1mL; ±0.8%/5mL; ±0.6%/10mL||
±12.0%/0.5µL; ±8.0%/1µL; ±4.0%/5µL;
|±3.0%/10µL; ±1.0%/50µL; ±0.8%/100µL||±3.0%/30µL; ±1.0%/150µL; ±0.6%/300µL||
±12.0%/0.5µL; ±8.0%/1µL; ±4.0%/5µL;
|±3.0%/10µL; ±1.0%/50µL; ±0.8%/100µL||±3.0%/30µL; ±1.0%/150µL; ±0.6%/300µL|
|Pipette type||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion||Manual air cushion|
|Spring loaded nose
Application 197 Research plus The Eppendorf Resear
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Application 198 Research plus The Eppendorf Resear
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Userguide 021 Reference family Research family Research pro Influence of physica
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SOP Pipettes Eppendorf SOP Stan
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Userguide 024 Pipettes Cleaning and inspect
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Userguide 025 Pipettes Calibration and adju
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Userguide 046 Pipettes The Eppendorf Physio
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Userguide 019 Pipettes Dispensers Fundamentals of disp
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Userguide 020 Reference family Research family Research pro Impact of pipetting
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Brochure Research plus Raise the limits E
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Flyer Research plus Voucher Raise the
||English (US)||2.66 MB||download|
Brochure Complete Liquid Handling Eppendorf Complete L
||English (US)||1.02 MB||download|
Brochure Pipettes Still Making History
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Operating manual Research plus
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Factory Adjustment Research plus
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User Adjustment Research plus
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Operating manual Pipette holder Pipette holder
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Leaflet Research plus Supplement sheet R
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What are the main features of the Eppendorf Research plus?Main features are: very low weight, spring loaded tip cone (exception: 5 mL and 10 mL Research plus) which leads to an easy and homogeneous tip attachment even when working with a multi-channel pipette and thus, to very low operation forces and finally, an easy adjustment by the user. In addition, the Research plus shows a very good accuracy and precision, is fully autoclavable at 121 °C, 1 bar for 20 min, features excellent chemical resistance and has an adjustment display offering optical control if an adjustment of the pipette has been performed.
In which sizes is the Eppendorf Research plus available?The Research plus is available as fixed-volume pipettes, adjustable pipettes and as 8-channel and 12-channel pipettes (with adjustable volumes). Besides the present volume range of our Research Pipettes, the Research plus is offered in the following additional sizes: Fixed-volume pipettes: 10 µL pipette for pipette tips 0.1-20 µL, 20 µL pipette for pipette tips 0.5-20 µL L and 200 µL pipette for pipette tips 2-200 µL. Adjustable pipettes: 2-20 µL pipette for pipette tips 0.5-20 µL L, 30-300 µL pipette for pipette tips 20-300 µL. These new models feature an even higher precision due to a smaller air-cushion in the pipette tip compared to tips with higher volumes. For detailed information on the different model sizes, please check the ordering information Research plus (http://www.eppendorf.de/int/index.php?sitemap=2.1&pb=49f30398a74e856f&action=products&contentid=1&catalognode=28831&page=15)
Is the Research plus resistent to concentrated acids?Yes. Please notice that the usage of aggressive chemicals over a longer period of time will reduce the life span of the pipette.
Is a gravimetric test necessary after resetting the adjustment display to "0"?From a technical standpoint, no. Only for certified laboratories, a gravimetric test might be necessary for documentation purposes.
Is accuracy (systematic error) affected if the Research plus multi-channel pipette is not fully attached with tips or if individual channels of the pipette are removed?It does not affect the accuracy of pipetting if the Research plus multi-channel pipette is not fully attached with tips or if individual channels are removed.
Is the Research plus compatible with hydrofluoric acid?Yes. Please notice that the usage of aggressive chemicals like hydrofluoric acid over a longer period of time will reduce the life span of the pipette.
Is the Research plus compatible with hydrochloric acid?Yes. Please notice that the usage of aggressive chemicals like hydrochloric acid over a longer period of time will reduce the life span of the pipette.
How many overnight cycles or total hours of UV irradiation can the Research plus withstand before any discoloration or change of the material will be visible?We tested UV radiation over a time period of 165 hours of continuos radiation and under very intense conditions. There were no visible discoloration or changes in the material.
Is it necessary to re-grease the piston of the pipette after autoclaving?No, it is not necessary.
Can the Research plus be autoclaved if the locking ring is installed to deactivate the spring loading?Yes. The locking ring is made of PPS (polyphenylene sulfide) and therefore autoclavable (121 °C, 1 bar, 20 min).
Is the Research plus compatible with sodium hydroxide (
Is the Research plus compatible with 65 % nitric acid?Yes. Please notice that the usage of aggressive chemicals like nitric acid over a longer period of time will reduce the life span of the pipette.
When do I have to lubricate the piston of a Research plus pipette?If the pipette is contaminated with a liquid which enters the pipette's internal parts, the user will have to disassemble the lower part, clean the piston and the nose cone . In this case, the grease is removed from the piston and the piston needs to be regreased before reassembly. To do so, we recommend to use our pipette grease (1 g, order no. 0013 063.010).
Do I need to disassemble the Research plus before autoclaving?No. It can be autoclaved in one piece (121 °C, 1 bar, 20 min).
What are the settings of the Research plus pipette for liquids of different viscosities or specific densities?The user manual of the Research plus mentions specific settings for some volumes of the most common liquid classes. These values are for orientation only as the systematic and random error are affected by the mode of operation, the tip used and other factors like the temperature. It is essential to check these data according to your own work method.
If my Research plus deviates significantly from the limit values, how can I find out whether this is a measuring error or a problem with the pipette?We recommend to dismantle the pipette into its individual parts (see operating instructions) and to clean these. Afterwards calibrate your pipette following the instructions given in our SOP. Values which deviate significantly from the limit value should now no longer occur. However, if there is no contamination, please contact your local eppendorf partner for service of your pipette.
Will water vapor enter into the pipette while it is being autoclaved, causing water vapor to bead up on the inside of the numerical volume setting display?Vapor will penetrate the inside of the pipette during autoclaving but this will not damage anything. We tested our pipettes with 175 autoclaving cycles (121 °C, 1 bar, 20 min). The number of respective tests chosen corresponds to an average of 5 years of use.
Can the Research plus be washed with sodium hypochlorite for disinfection?Yes. The outside of the tip cone and ejector sleeve can be wiped with 4 % sodium hypochlorite solution. After the exposure time of the sodium hypochlorite solution has elapsed, remove thoroughly with demineralized water.
In part 3 of the operating manual of the Research plus you recommend to adjust the volume setting from a higher value to a lower value. If required, the user should turn the value beyond the required valued and than back again. What is the reason for such a recommendation?For technical reasons, the results are generally more precise when a volume setting is carried out from a higher down to a lower value. This is valid for all manual pipettes.
Are any O-rings or any other type of rubber gaskets present on the insides of the single-channel Research plus?There are no single O-rings or other separate parts inside. All parts are integrated into the piston. Only the lower parts of the multi-channel Research plus pipettes are equipped with O-rings.
How should contaminations on the outside of the Research plus be removed?We recommend to wet a cloth with water or 70% isopropanol and to remove the contamination.
How should disinfection of the Research plus be performed?Wipe off the outer surface with disinfectant, DNA/RNA decontamination agent or 70 % isopropanol. Alternatively wipe the outside of the tip cone and ejector sleeve with 4 % sodium hypochlorite solution. After the exposure time of the sodium hypochlorite solution has elapsed, remove thoroughly with demineralized water. Alternatively the Research plus may be temporarily subjected to UV light under a sterile bench.Here we recommend the use of a Hg-lamp, 254 nm, 30 W. The distance between lamp and pipette should be approx. 60 cm.
What information is available through the adjustment display of the Research plus?As each Research plus pipette has been calibrated and adjusted before delivery, the adjustment display shows "0". As soon as the adjustment is changed by the user, the reading on the display will be changed, too. Therefore, the adjustment display provides optical control if a pipette has been adjusted to another volume.
What do I have to observe regarding maintenance and cleaning of the Research plus?The Research plus pipettes are easy to clean. Only the lower part should be cleaned on a regular basis, in accordance with the frequency of use. The lower part of the single-channel and multi-channel Research plus pipettes can be removed easily as described in the operating manual of the Research plus or in our Application Note 198. (http://www.eppendorf.de/int/index.php?sitemap=4.1&pb=f69dc5897412b7d4&action=support&contentid=1&catalognode=67026&productpage=7)
When should the spring loading of the single-channel Research plus pipettes be deactivated?For dispensing tasks in which a pipette tip is used over a long time or is slightly bended, it can be helpful to deactivate the spring loading of the tip cone by installing the locking ring. This can also be helpful for pipette tips which are not designed for the Eppendorf pipette cones.
I have noticed that more solution is used for "reverse pipetting" than for normal pipetting. What is the reason for this?That is correct, and is also intentional. Normal (forwards) pipetting with solutions with a high level of vapor pressure or highly viscous solutions cannot guarantee that the entire volume is correctly pipetted. Reverse pipetting is therefore recommended, resulting in more volume being aspirated than is necessary. When dispensing, the entire volume is then correctly dispensed. The excess aspirated solution remains in the tip and must be discarded.
Can you recommend me any literature on reverse pipetting?You will find information about this in our Application No. 10 - use of pipetting systems in the laboratory.
When pipetting volumes
What can you recommend with regards to the handling of viscous liquids?Our recommendation: 1. Biomaster pipette with Mastertips (positive-displacement principle) 2. Reverse pipetting (see page 214 of Main Catalogue 12002) 3. Multipette plus, Multipette stream or Multipette Xstream.
Is there an Eppendorf pipette which can be used to pipette 40 % polyethylene glycol 8000 (PEG)?Yes, direct-displacement pipettes like the Multipette stream or Xstream, for example, can be used.
What is the best way to pipette chloroform?A positive displacement pipette, e.g. the Biomaster (with Mastertips), the Multipette plus, the Multipette stream or Multipette Xstream (with Combitip plus) is suitable for this purpose. When using an air cushion pipette you should always pipette in reverse and pre-moisten the tip several times in order to saturate the air cushion. See also the info in the main catalog 2002, page 214.
What is the best way to pipette diethyl ether?Diethyl ether has such a high vapor pressure that it would leak out of the tip immediately when a normal pipette is used. For this reason, it can only be pipetted using a positive-displacement pipette, such as our Biomaster pipettes with Mastertips for 2 - 20 µl. The Varipette 4720 and Multipette/Multipette plus, Multipette stream or Multipette Xstream are available for larger volumes.
Are Eppendorf pipettes resistant to acetonitrile?Yes.
What should be considered when pipetting methanol with air-cushion pipettes?Due to the increased steam pressure we recommend pre-wetting the pipette tips 2-3 times and possibly pipetting in reverse (take-up with blowout, discharge without blowout).
What is the best pipette for pipetting a 99% solution of n-amyl alcohol?A 99 % solution of n-amyl alcohol is a highly viscous solution for which we recommend a pipette which works on the direct-displacement principle, e.g. the Multipette pro.
Are Eppendorf pipettes resistant to hexane?Yes, they are resistant.
What is the best way to dispense organic solvent?This is best done with a Multipette. The Multipette functions according to the direct displacement principle and is therefore suitable for dispensing solutions with high vapor pressures. The solvent vapors do not come into direct contact with the pipette. In addition, the Combitips have a high chemical resistance.
I would like to pipette dichloromethane and n-hexanol very precisely. Can I use air cushion pipettes for this application?No. Both dichloromethane and n-hexanol have a very high vapor pressure, so direct-displacement pipettes, e.g. the Eppendorf Biomaster, the Multipette plus, Multipette stream or Multipette Xstream, have to be used for accurate pipetting.
Are your pipettes free of nucleic acids?No, we cannot guarantee this. Of course we work carefully and cleanly in production, but no special measures are taken to prevent the infiltration of human nucleic acids. For sterile work, or to protect your pipette from contamination, we recommend using positive displacement pipettes, for example, our Biomaster or Filtertips. To decontaminate the pipette we recommend boiling in Glycin/HCl buffer (pH2). We would be happy to send the protocol for this; please contact our Application-Hotline (email@example.com).
How can I remove DNA contamination from my pipette?Please check, first of all, if the material of your pipette is suitable for the described procedures. To remove DNA contamination from your pipette, you can: - autoclave your pipette (see operating manual) - sterilize your pipette with UV light - treat the lower part of your pipette with a glycine-HCl buffer (pH 2.0)* - treat your pipette with a 5-10 % sodium hypochlorite solution. * We would be happy to send the protocol for this; please contact our Application-Hotline (firstname.lastname@example.org)
How can radioactive contamination be removed from Eppendorf pipettes?Following contamination of pipettes with radioactive liquids, we recommend putting the contaminated parts in a complex-forming liquid or special cleaning solution. After that, rinse very thoroughly with distilled water and dry. Grease piston lightly afterwards (see Application 10). This procedure is good for removing radioactive material.
Do Eppendorf pipettes always need to be greased?No, they do not need to be greased from the point of view of maintenance. The pistons only need greasing if the pipettes have got very dirty and have been cleaned with organic solvents.
Can the pipette withstand evacuation (applying a vacuum)?No, air cushion pipettes should not generally be used under vacuum, as the pressure ratios are not right.
How should warm or cold liquids be pipetted?Exactly in the same way as liquids at room temperature. But it should be noted that the solutions could behave quite differently. In addition, the quantities and thus the measurement results can vary. This is the reason that our pipettes are tested with the tips and with distilled water after acclimatization in a room at 20 °C, only.
Are the handles of Eppendorf pipettes made of a special material to minimize temperature effects during pipetting?Temperature effects are minimized in our pipettes by their design. We accordingly use a special polypropylene which satisfies the particular requirements on a pipette handle.
What does the conformity symbol "H" on the pipette pack stand for?The conformity symbol is subject to German calibration regulations responsible for volumetric measuring equipment. This is only required in Germany. In future, the CE symbol will be applied directly to the pipette to indicate conformity with European standards.
Do Eppendorf pipettes always have to be kept in a stand or can they also be put down on the laboratory bench?They can be put down on the laboratory bench - but never with a full tip.
I very frequently work with different chemicals. Can you tell me from which point I need to adjust my pipettes?Adjustment, in other words altering the stroke of the pipette, is required for air cushion pipettes with solutions of a density
How do I determine the volume values when weighing a pipette?The measuring values of the analysis scale are multiplied by the correction factor Z (see SOP pipettes). This takes into account the density of the water at the relevant temperature and the relevant air.
What does UKAS mean in the context of calibration and certification of pipettes?UKAS = United Kingdom Accreditation Service, responsible for accreditation and certification in the UK.
What does EN ISO 8655 cover?From December 2002, EN ISO 8655 replaced DIN 12650 and other national European standards. Like DIN 12650 etc., it is aimed at: - manufacturers, as a basis for their quality assurance program, - testing institutions, as a basis for independent certification, - users, as a basis for routine testing of accuracy.
What do the terms random error (imprecision) and systematic error (inaccuracy) mean in a pipette calibration?The random measurement deviation (imprecision) describes the mean variation of the dispensed volumes from the mean value of the dispensed volumes, and is determined by calculating the repeat standard deviation of (usually) 10 measurements. The systematic measurement deviation (inaccuracy) describes the deviation of the dispensed volume from the nominal volume or from the selected volume of the piston stroke device, and is determined by establishing the mean value of (usually) 10 measurements.
Why are the Z factors listed in our SOP different from factors which can be derived from density reference values (of water)?The Z factor is included in EN ISO 8655-6 and was incorporated into our SOP. As we understand it, it was incorporated in the standard by the Physikalisch Technische Bundesanstalt in Braunschweig. The Z factor describes the density of water at a particular temperature using a 5th degree polynomial. Furthermore, the density of water is corrected by the density of air (derived from air pressure) and a fixed correction value for balances. These corrections are the key reasons for the deviation from density values in various books of tables.
Which DIN 12650 standard applies to single-channel, piston-stroke pipettes?DIN 12650 was replaced by EN ISO 8655 in December 2002 and applies with immediate effect to piston-stroke pipettes and dispensers.
What conditions should be observed when calibrating pipettes?The temperature of pipettes, test liquid and room should be identical. In other words, at least 2 hours should be allowed for everything to come to temperature. If this is not the case, an error can occur in air cushion pipettes as a result of the effects of differences in temperature, leading to fluctuating measured values (see EN ISO 8655). We recommend our standard operating procedure (SOP) for pipettes as a source of basic information on pipette calibration. Furthermore, we would like to draw your attention to our Liquid Handling training program: dispensing systems in the laboratory - principles, maintenance, quality assurance. You can find out more about this training program on our Eppendorf.com home page under the heading "Training".
To what value should a variable pipette be calibrated?According to the EN ISO 8655 standard a variable pipette should be calibrated to 3 volumes: 1. Nominal volume, 2. 50 % of nominal volume, 3. Smallest value which can be set or 10 % of nominal volume.
What is the nominal volume of a variable pipette?The nominal volume of a variable pipette is always the maximum volume. With a 100 - 1,000 µl pipette it is therefore 1,000 µl.
I very frequently work with different chemicals. Can I still perform pipette calibration using water?Calibration, i.e. checking a pipette on a balance, is always performed using distilled or deionized water (see EN-ISO 8655).
We work every day a great deal with our pipettes. How often should we calibrate our pipettes?The user decides upon the frequency of calibration, the number of test volumes and the number of measurements for each test volume within the framework of monitoring his test materials. This can vary depending upon the frequency of use of the pipette, the number of users of the device, the aggressiveness of the liquids to be dispensed and the error limits deemed acceptable by the user. However, an inspection should be carried out at least once a year. See also EN ISO 8655, Part 6.
During weighing (pipette calibration) I obtained steadily decreasing measuring results. Why is this?The weight fluctuations you measured would appear to be a temperature problem. Please ensure that the pipette, the distilled water used for testing, the tips etc. are all at the same temperature. It is recommended that the pipettes be placed in the weighing room at least 2 hours before the test is performed. Whilst measuring, ensure that transfer of heat from your hands is kept to a minimum (otherwise weight fluctuations may occur!) Tip: do not constantly grasp the pipette in the palm of your hand! We recommend our standard operating procedure (SOP) for pipettes as a source of basic information on pipette calibration. Furthermore, we would like to draw your attention to our Liquid Handling book: "Liquid Handling - Laboratory Practice" Order no. ADOSI 39020
Are the values given for the systematic error (inaccuracy) and random error (imprecision) for air-cushion pipettes also applicable when reverse pipetting?Yes, these limits also apply to reverse pipetting.
Why does the measuring protocol for the Eppendorf pipettes affixed to the operating instructions contain only two volumes for inaccuracy and imprecision, whilst in the catalogue and the Technical Data of the operating instructions, you quote the values for three volumes in each case?For all our pipettes, we guarantee the values for accuracy and precision for the three volumes quoted in the Technical Data (catalogue, operating instructions). This is what the conformity symbol with which all our pipettes are marked stands for. For cost reasons, we list only two volume values on the measuring protocol for each pipette.
How are multi-channel pipettes tested?All channels of a multi-channel pipette have to be tested individually. For this one tip is attached only to the channel to be tested. Hence the number of pipetting steps is drastically increased.
Is the pipette grease free of resins?Yes, the pipette grease supplied by Eppendorf is pure silicone grease.
According to which criteria are pipettes tested for conformity?The contents of the EN/ISO 8655 apply for conformity testing
Research plus Userguide Video – Disassembly
Research plus Userguide Video - Deactivating the spring-loaded tip cone
Research plus Userguide Video - Replacement of the O-rings
Research plus Userguide Video – Assembly
Research plus Userguide Video – Autoclaving
Research plus Userguide Video - Leak test
Research plus Userguide Video - Forward pipetting