Fast and efficient sample transfer from plate to plate with INTEGRA's electronic pipettes

  • Fast and efficient sample transfer from plate to plate with INTEGRA's electronic pipettes

    Effortless sample reformatting

    The transfer of samples between same (e.g. from 96 well to 96 well plate) or different plate formats (e.g. from 96 well to 384 well plate) is a common process in life science applications, from cell culture, seeding and staining to drug testing, PCR, protein analysis and nucleic acid purification. However, it is a slow, tedious and highly error prone procedure when performed manually with a single channel pipette. INTEGRA's electronic pipettes allow precise and efficient transfer of multiple samples in parallel, significantly speeding up the reformatting process. For example, the VOYAGER adjustable tip spacing pipette is an ideal tool when the source and target plate formats differ, and can be used either manually or automated on the ASSIST PLUS pipetting robot. For even higher throughput reformatting, the VIAFLO 96, VIAFLO 384 and MINI 96 offer a fast solution for whole plate transfers. If you want to know how to accelerate tube to plate transfers, this application note could also be of interest to you: Fast and efficient tube to plate transfers.

  • Table of contents

    The transfer of samples between same (e.g. from 96 well to 96 well plate) or different plate formats (e.g. from 96 well to 384 well plate) is a common process in life science applications, from cell culture, seeding and staining to drug testing, PCR, protein analysis and nucleic acid purification. However, it is a slow, tedious and highly error prone procedure when performed manually with a single channel pipette. INTEGRA's electronic pipettes allow precise and efficient transfer of multiple samples in parallel, significantly speeding up the reformatting process. For example, the VOYAGER adjustable tip spacing pipette is an ideal tool when the source and target plate formats differ, and can be used either manually or automated on the ASSIST PLUS pipetting robot. For even higher throughput reformatting, the VIAFLO 96, VIAFLO 384 and MINI 96 offer a fast solution for whole plate transfers. If you want to know how to accelerate tube to plate transfers, this application note could also be of interest to you: Fast and efficient tube to plate transfers.

Key benefits

  • Replicate or reformat of all kinds of plates – including 12, 24, 48, 96, 384 or 1536 well plates – quickly and easily.
  • Transfer 384 samples at once to significantly accelerate pipetting productivity.
  • Pipetting errors and transfer mistakes are eliminated using INTEGRA's electronic pipettes.
  • Reproducibility and accuracy of liquid handling steps increased – the VIAFLO 96 handheld electronic pipette is four times faster than pipetting with an 8 channel electronic pipette. Sample transfers with the ASSIST PLUS pipetting robot are 12 times faster than using a single channel pipette.

Overview: How to transfer samples from plates to plates

This application note shows some examples of how to transfer samples from plate to plate (Figure 1).

Infographic showing the most common plate to plate transfer procedures with INTEGRA electronic pipettes.
Figure 1: Most common plate to plate transfer procedures.

Download: App note for the sample transfer from plate to plate

Here you can download the complete application note.

Step-by-step procedure:

1. 96 well plate replication

Transferring samples from one 96 well plate to another 96 well plate.

It is possible to replicate 96 well plates with all INTEGRA's electronic pipettes.

The MINI 96 portable electronic pipette, the VIAFLO 96 or VIAFLO 384 handheld electronic pipettes offer the easiest and fastest solution to replicate a 96 well plate. These instruments transfer 96 samples in one pipetting step.

The 12 channel VOYAGER and the VIAFLO electronic pipettes can be used – either manually or on the ASSIST PLUS pipetting robot – to transfer samples from a 96 well plate to a 96 well plate.

Working manually with the VOYAGER adjustable tip spacing pipette is important to set the right well to well distance:

  • 26 mm for 12 well plates
  • 19 mm for 24 well plates
  • 14 mm for 48 well plates
  • 9 mm for 96 well plates
  • 4.5 mm for 384 well plates.

This can be done by selecting 'Tip spacing' in the main menu of the pipette, followed by choosing 'Position 2', and setting the tip spacing accordingly. Once saved, the tip spacing is available at any time.

Pairing the VIAFLO or VOYAGER electronic pipettes with the ASSIST PLUS pipetting robot allows a hands-free replication process.

2. Transfer from 96 well plates to 384 well plate

Transferring samples from 96 well plates to a 384 well plate.

It is possible to transfer samples from 96 well plates to a 384 well plate with all INTEGRA's electronic pipettes. For example, the VOYAGER 8 and 12 channel electronic pipettes can be used, or they can be paired with the ASSIST PLUS pipetting robot.

When deciding which instrument to choose for sample transfer from four 96 well plates to a single 384 well plate, the sample order in the destination plate should be considered (see Figure 2). The sample order from the source plates can easily be maintained when transferring the samples with a VOYAGER (with or without the ASSIST PLUS), but using the VIAFLO 96 or the MINI 96 will change the sample order.

Infographic showing sample transfers from 96 well plates to a 384 well plate with INTEGRA's VOYAGER, VIAFLO 96, and MINI 96.
Figure 2: Sample transfer from four 96 well plates to one 384 well plate with the VOYAGER, ASSIST PLUS, VIAFLO 96 and MINI 96.

3. 384 well plate replication

Transferring samples from one 384 well plate to another 384 well plate.

Replication of 384 well plates is possible with all INTEGRA's electronic pipettes.

The fastest option is the VIAFLO 384 handheld electronic pipette, which allows the transfer of 384 samples in one go. Alternatively, the VIAFLO 96 handheld electronic pipette enables sample transfer in four steps.

On the ASSIST PLUS pipetting robot, the 12 channel VOYAGER or 16 channel VIAFLO electronic pipettes are the fastest options. The 384 well plates should be placed in a portrait orientation on the deck when using the 12 channel VOYAGER, or in a landscape orientation when using the 16 channel VIAFLO (Figure 3).

Graphical representation of the ASSIST PLUS pipetting robot deck set-up with the VIAFLO 16 channel electronic pipette.
Figure 3: 384 well plate replication with the ASSIST PLUS pipetting robot and 16 channel VIAFLO electronic pipette.

4. Transfer from 384 well plates to 1536 well plates

Transferring samples from 384 well plates to a 1536 well plate.

The VIAFLO 384 is the ideal instrument to transfer samples from 384 well plates to a 1536 well plate. However, the resulting sample order in the destination plate should be taken into account (see Figure 4 and Figure 5).

Infographic showing sample transfer from a 384 well plate to a 1536 well plate with INTEGRA's VIAFLO 384 handheld electronic pipette.
Figure 4: Sample transfer from a 384 well plate to a 1536 well plate with the VIAFLO 384.
A hand showing the result of sample transfer from four 384 well plate to a 1536 well plate with the VIAFLO 384.
Figure 5: Result of pipetting samples from four 384 well plates to a 1536 well plate with the VIAFLO 384.

5. Transfer from 24 well plates to 96 well plate

Transferring samples from 24 well plates to a 96 well plate.

Transferring samples from 24 well plates to a 96 well plate can be performed manually with the VOYAGER adjustable tip spacing pipette or can be automated by pairing the VOYAGER with the ASSIST PLUS pipetting robot. Alternatively, the VIAFLO 96 and VIAFLO 384 handheld electronic pipettes can be equipped with a 24 channel pipetting head.

The VOYAGER 6 channel electronic pipettes can be used to transfer samples from a 24 well plate to a 96 well plate and, when using the ASSIST PLUS, the right plate orientation is very important. The 24 and the 96 well plates should be placed in portrait orientation on the deck (Figure 6).

Graphical representation of the ASSIST PLUS pipetting robot deck set-up with a VOYAGER 4 channel electronic pipette.
Figure 6: Sample transfer from two 24 well source plates (blue wells) to a 96 well destination plate (green wells) with the ASSIST PLUS pipetting robot.

When a VIAFLO 96 or VIAFLO 384 with a 24 channel pipetting head is used to transfer samples from 24 well plates to a 96 well plate, the user should be aware of the sample order in the destination plate (see Figure 7).

Infographic showing the different pipetting position for the ASSIST PLUS, VIAFLO 96 and VIAFLO 384 during sample transfer from a 24 well plate to a 96 well plate.
Figure 7: Sample transfer from a 24 well plate to a 96 well plate with either the ASSIST PLUS pipetting robot or the VIAFLO 96 and VIAFLO 384 handheld electronic pipettes.

6. Processing 48 well plates

Transferring samples from 48 well plates.

Transferring samples from 48 well plates to 12, 24, 48, 96 or 384 well plates can be performed manually with a VOYAGER adjustable tip spacing pipette, or automatically by using the VOYAGER in combination with an  PLUS pipetting robot.

Depending on the target plate, 4, 6 or 8 channel VOYAGER pipettes can be used to transfer samples from 48 well plates.

When the ASSIST PLUS pipetting robot is used for transfers from a 48 well plate to 12 well plates, both plates should be in portrait format. For transfers from a 48 well plate to 24 well plates, the 48 well plate should be in landscape orientation, while the 24 well plate should be in portrait. When a 48 well plate is replicated, both plates should be in portrait orientation. For transfers from a 48 well plate to a 96 or 384 well plate, the 48 well plate has to be in portrait orientation, and the 96 or 384 well plate in landscape (Figure 8).

Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from a 48 well plate to two 12 well plates.
Figure 8a: Sample transfer from a 48 well source plate (blue) to two 12 well destination plates (green) with the ASSIST PLUS pipetting robot.
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from a 48 well plate to two 24 well plates.
Figure 8b: Sample transfer from a 48 well source plate (blue) to two 24 well destination plates (green) with the ASSIST PLUS pipetting robot. 
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from a 48 well plate to another 48 well plate.
Figure 8c: Sample transfer from a 48 well source plate (blue) to another 48 well destination plate (green) with the ASSIST PLUS pipetting robot.
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from two 48 well plates to a 96 well plate.
Figure 8d: Sample transfer from two 48 well source plates (blue) to a 96 well destination plate (green) with the ASSIST PLUS pipetting robot.
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from two 48 well plates to a 384 well plate.
Figure 8e: Sample transfer from two 48 well source plates (blue) to a 384 well destination plate (green) with the ASSIST PLUS pipetting robot. 

7. 24 well plate replication

Transferring samples from one 24 well plate to another 24 well plate.

Replicating a 24 well plate is possible with the VOYAGER adjustable tip spacing pipettes, an ASSIST PLUS pipetting robot paired with a VOYAGER pipette, or with the VIAFLO 96 and VIAFLO 384 handheld electronic pipettes equipped with a 24 channel pipetting head.

A 4 or 6 channel VOYAGER pipette can be used for the transfer. When the sample transfer is automated with the ASSIST PLUS pipetting robot, the plates have to be in landscape orientation if a 4 channel VOYAGER pipette is used, whereas a 6 channel VOYAGER pipette requires plates to be placed in portrait.

For processing of a full 24 well plate in one go, the VIAFLO 96 and VIAFLO 384 handheld electronic pipettes can be used with a 24 channel pipetting head (Figure 9) and 24 channel plate holders. With this set-up, it is possible to load GRIPTIPS® from a tip box four times. Always check the well to well distance of the 24 well plate, and align the pipetting head according to your plate.

Cell culture transfer with a VIAFLO 96 handheld electronic pipette equipped with a 24 channel head.
Figure 9: Sample transfer between 24 well plates with the VIAFLO 96 handheld electronic pipette equipped with a 24 channel pipetting head.

8. Processing of 12 well plates

Transferring samples from 12 well plates.

Transferring samples manually from 12 well plates to 12, 24, 48 or 96 well plates is possible with a VOYAGER adjustable tip spacing pipette, or automatically with the ASSIST PLUS pipetting robot equipped with a VOYAGER pipette.

For transferring samples from a 12 well plate to any other plate format, a 4 channel VOYAGER electronic pipette is required (Figure 10).

 

Sample transfer from a 12 well plate to a 24 well plate with a 4 channel VOYAGER adjustable tip spacing pipette.
Figure 10: Sample transfer from a 12 well plate to a 24 well plate with a 4 channel VOYAGER 1250 µl adjustable tip spacing pipette.

When using the ASSIST PLUS pipetting robot, the 12 well plate has to be placed on the deck in portrait orientation (Figure 11). 12 well plate to 24 or 96 well plate transfers require the destination plate to be in landscape orientation, whereas 12 well plate to 48 well plate transfers require the 48 well plate to be in portrait. Two 12 well plates can be processed without any manual intervention, giving more walk-away time.

Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from two 12 well plates to a 24 well plate.
Figure 11a: Sample transfer from two 12 well source plates (blue) to a 24 well destination plates (green) with the ASSIST PLUS pipetting robot.
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from two 12 well plates to a 48 well plate.
Figure 11b: Sample transfer from two 12 well source plates (blue) to a 48 well destination plates (green) with the ASSIST PLUS pipetting robot.
Graphical representation of the ASSIST PLUS pipetting robot deck set-up for sample transfer from two 12 well plates to a 96 well plate.
Figure 11c: Sample transfer from two 12 well source plates (blue) to a 96 well destination plates (green) with the ASSIST PLUS pipetting robot.

Table 1: Summary of possible plate to plate transfers with INTEGRA electronic pipettes.

A summary table explaining all the transfer possibilities for plate to plate transfers with INTEGRA electronic pipettes.

Conclusion

  • Sample transfers from plate to plate, even between different formats, is no longer a cumbersome task using INTEGRA's VOYAGER, ASSIST PLUS, MINI 96,
    VIAFLO 96 or VIAFLO 384.
  • Reformatting has never been easier, quicker and more reproducible.
  • Thanks to the compact footprint of the instruments, they can be placed in a laminar flow hood when sterile working conditions are required.
  • If high throughput and fast pipetting is needed, the MINI 96, VIAFLO 96 and VIAFLO 384 are the best solutions. Alternatively, an ASSIST PLUS equipped with a VOYAGER pipette provides the most versatile, fully automated set-up for plate to plate reformatting.
  • Sample transfers from and to all possible plate types is achievable. The VOYAGER adjustable tip spacing pipette is available with various numbers of channels, and in different volumes. The VIAFLO 384 handheld electronic pipette can be equipped with 24, 96 or 384 channel pipetting heads with different pipetting volumes, the VIAFLO 96 can be used with 24 and 96 channel pipetting heads, and the MINI 96 portable electronic pipette is available in four volume ranges.

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  • Éva Mészáros, PhD

    Application Specialist

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Instruments and accessories

ASSIST PLUS, Pipetting Robot VIAFLO 96/ VIAFLO 384, Handheld Electronic Pipette 24 Channel Pipetting Heads 96 Channel Pipetting Heads 384 Channel Pipetting Heads MINI 96, 96 Channel Portable Electronic Pipette VIAFLO 16 channel, electronic pipette VOYAGER, 4 Channel VOYAGER, 6 Channel VOYAGER, 8 Channel VOYAGER, 12 Channel TPP: 12 well PS Tissue Culture Test Plate Greiner Bio-One: Multiwell plate for suspension culture, 24 well, PS Greiner Bio-One: Multiwell plate for suspension culture, 48 well, PS Greiner Bio-One: Sapphire microplate, 96 well, PP Greiner Bio-One: Microplate, 384 well, PS, F-bottom Greiner Bio-One: Microplate, 1536 well, PS, F-bottom

ASSIST PLUS, Pipetting Robot

INTEGRA has developed the ASSIST PLUS pipetting robot to streamline routine pipetting tasks at an affordable price. Using INTEGRA electronic multichannel pipettes, the system:

  • automates pipetting tasks,
  • eliminates physical strain and
  • ensures superior reproducibility and
  • error free pipetting.

Part No. 4505

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ASSIST PLUS Pipetting Robot

VIAFLO 96/ VIAFLO 384, Handheld Electronic Pipette

With this 24, 96 and 384 channel pipette, INTEGRA meets the need for an affordable, compact and easy to use pipette that provides increased productivity. The unique operating concept makes VIAFLO 96/384 as easy to use as any traditional handheld pipette.

Part No. 6001 / 6031

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The VIAFLO 96/384 is handheld, electronic pipette

24 Channel Pipetting Heads

Users can simply change the pipetting head of their VIAFLO 96 and VIAFLO 384 to guarantee optimal matching of the available volume range to the application performed. Changing a pipetting head of VIAFLO 96 and VIAFLO 384 is easy and takes less than one minute.

Part No. 6123 (100 - 300 µl)
Part No. 6124 (50 - 1250 µl)

 

Find out more about VIAFLO 96/384 Pipetting Heads Specifications
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96 Channel Pipetting Heads

Users can simply change the pipetting head of their VIAFLO 96 and VIAFLO 384 to guarantee optimal matching of the available volume range to the application performed. Changing a pipetting head of VIAFLO 96 and VIAFLO 384 is easy and takes less than one minute.

Part No. 6101 (0.5 - 12.5 µl)
Part No. 6102 (5 - 125 µl)
Part No. 6103 (10 - 300 µl)
Part No. 6104 (50 - 1250 µl)
Part No. 6106 (2 - 50 µl)

Find out more about VIAFLO 96/384 Pipetting Heads Specifications
VIAFLO 96/384 96 channel pipetting head

384 Channel Pipetting Heads

Users can simply change the pipetting head of their VIAFLO 96 and VIAFLO 384 to guarantee optimal matching of the available volume range to the application performed. Changing a pipetting head of VIAFLO 96 and VIAFLO 384 is easy and takes less than one minute.

Part No. 6131 (0.5 - 12.5 µl)
Part No. 6132 (5 - 125 µl)
Part No. 6136 (2 - 50 µl)

Find out more about 384 Channel Pipetting Heads
384 Channel Pipetting Heads

MINI 96, 96 Channel Portable Electronic Pipette

The most affordable 96 channel electronic pipette on the market – fits any budget and workspace, and ready to use straight out of the box.

Part No. 4801 (0.5 - 12.5 µl)
Part No. 4802 (5 - 125 µl)
Part No. 4803 (10 - 300 µl)
Part No. 4804 (50 - 1250 µl)

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INTEGRA's innovative 96 channel pipette MINI 96

VIAFLO 16 channel, electronic pipette

The Touch Wheel is a quick and ergonomic way to modify pipetting parameters. Instead of repeatedly pushing buttons or twisting fingers to modify volumes, you simply slide your finger over the wheel.

The full color screen provides full text menus (in multiple languages) and displays pipetting protocols without abbreviations, making VIAFLO pipettes particularly easy to understand and intuitive to use.

Part No. 4641 (0.5 - 12.5 µl)
Part No. 4642 (5 - 125 µl)
Part No. 4646 (2 - 50 µl)

Find out more about VIAFLO electronic pipettes
INTEGRA’s range of VIAFLO electronic pipettes.

VOYAGER, 4 Channel

VOYAGER pipettes allow the tip spacing to expand anywhere between 4.5 mm and 33 mm at the push of a button.

  • Single handed operation leaves the other hand free to handle labware.
  • On the fly access to up to 3 user-defined tip spacings.
  • These user defined tip spacings are saved. No need to memorize spacings of different labware formats.

Part No. 4743 (10 - 300 µl)
Part No. 4744 (50 - 1250 µl)

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VOYAGER 4 channel 300 µl pipette

VOYAGER, 6 Channel

VOYAGER pipettes allow the tip spacing to expand anywhere between 4.5 mm and 33 mm at the push of a button.

  • Single handed operation leaves the other hand free to handle labware.
  • On the fly access to up to 3 user-defined tip spacings.
  • These user defined tip spacings are saved. No need to memorize spacings of different labware formats.

Part No. 4763 (100 - 300 µl)
Part No. 4764 (50 - 1250 µl)

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VOYAGER, 6 channels, 1250μL

VOYAGER, 8 Channel

VOYAGER pipettes allow the tip spacing to expand anywhere between 4.5 mm and 33 mm at the push of a button.

  • Single handed operation leaves the other hand free to handle labware.
  • On the fly access to up to 3 user-defined tip spacings.
  • These user defined tip spacings are saved. No need to memorize spacings of different labware formats.

Part No. 4721 (0.5 - 12.5 µl)
Part No. 4722 (5 - 125 µl)
Part No. 4723 (10 - 300 µl)
Part No. 4724 (50 - 1250 µl)
Part No. 4726 (2 - 50 µl)

See it work
VOYAGER, 8 channel series

VOYAGER, 12 Channel

VOYAGER pipettes allow the tip spacing to expand anywhere between 4.5 mm and 33 mm at the push of a button.

  • Single handed operation leaves the other hand free to handle labware.
  • On the fly access to up to 3 user-defined tip spacings.
  • These user defined tip spacings are saved. No need to memorize spacings of different labware formats.

Part No. 4731 (0.5 - 12.5 µl)
Part No. 4732 (5 - 125 µl)
Part No. 4736 (2 - 50 µl)

See it work
VOYAGER pipettes allow the tip spacing to expand anywhere between 4.5 mm and 33 mm at the push of a button.

TPP: 12 well PS Tissue Culture Test Plate

Features of the TPP tissue culture test plates show highest operational standards quality:

  • opto-mechanical treatment of growth area for optimal cell adhesion
  • lid with air-venting system guarantees controlled gas exchange with low evaporation
  • sloped edge allows placement of the lid in one position only
  • yellow marking area on lid and plate ensure correct lid orientation: yellow on yellow – match!
  • etc.

Source: Website TECHNO PLASTIC PRODUCTS AG

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TPP-Tissue-Culture-Test-Plates

Greiner Bio-One: Multiwell plate for suspension culture, 24 well, PS

CELLLSTAR® 24 Well Cell Culture Multiwell Plates

  • With hydrophobic surface for suspension culture cells and hybridoma cells
  • Free of detectable DNase, RNase, human DNA, non-pyrogenic
  • Non-Cytotoxic
  • High clarity and low autofluorescence
  • Lid enables gas exchange with the lowest possible evaporation
  • Single position lids to prevent cross-contamination
  • Alphanumeric well coding
  • Compatible with automated systems
  • Easy-to-open packaging
  • Suitable for all common instruments and for automation
  • Max. volume per well: 3.3 ml
  • Sterile

source: Website GREINER BIO-ONE

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GREINER-BIO-ONE: MULTIWELL PLATE FOR SUSPENSION CULTURE, 24 WELL - 662102

Greiner Bio-One: Multiwell plate for suspension culture, 48 well, PS

CELLLSTAR® 48 Well Cell Culture Multiwell Plates

  • With hydrophobic surface for suspension culture cells and hybridoma cells
  • Free of detectable DNase, RNase, human DNA, non-pyrogenic
  • Non-Cytotoxic
  • High clarity and low autofluorescence
  • Lid enables gas exchange with the lowest possible evaporation
  • Single position lids to prevent cross-contamination
  • Alphanumeric well coding
  • Compatible with automated systems
  • Easy-to-open packaging
  • Suitable for all common instruments and for automation
  • Max. volume per well: 1.7 ml  
  • Sterile

source: Website GREINER BIO-ONE

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GREINER-BIO-ONE:MULTIWELL PLATE FOR SUSPENSION CULTURE, 48 WELL - 677102

Greiner Bio-One: Sapphire microplate, 96 well, PP

  • Free of detectable DNase, RNase, human DNA
  • Non-Pyrogenic
  • Ultra thin polypropylene for optimal heat transfer from the thermoblock to the reaction solution
  • Are particularly suited for automation
  • They are both "robot-freindly" for grippers, and have sufficient space for the application of barcodes
  • Sealable with sealers "SILVERseal™", "VIEWseal™" and "AMPLIseal™"
  • Volume per well: 0.2 ml
  • Full-skirted

Source: Website supplier

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GREINER-BIO-ONE:SAPPHIRE MICROPLATE, 96 WELL, PP, FOR PCR - 652270

Greiner Bio-One: Microplate, 384 well, PS, F-bottom

384 Well Polystyrene Microplates, clear

  • Free of detectable DNase, RNase, human DNA
  • Non-pyrogenic
  • Manufactured under DIN ISO 9001 guidelines
  • Can be traced all the way back to production through a defined LOT number system
  • Compared with the 96 well standard microplate, the number of wells is quadrupled in this microplate, combined with a volume reduction from 382 µl to 138 µl
  • The well-to-well spacing is 4.5 mm
  • The external dimensions are compatible with standard equipment and automated systems
  • Rounded square well profile, i.e. they are square with rounded corners. This design combines the advantages of the square well, i.e. flexible working volume of 10 µl to 130 µl, with the advantages of a round well, such as reduced wicking and bubbling
  • Solid Bottom
  • Well profile: F-bottom (flat bottom)

source: Website GREINER BIO-ONE

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Greiner Bio-One - MICROPLATE, 384 WELL, PS, F-BOTTOM - 781101

Greiner Bio-One: Microplate, 1536 well, PS, F-bottom

1536 Well HiBase Microplates, clear

  • Free of dectable DNase, RNase, human DNA
  • Non-Pyrogenic
  • Manufactured under DIN ISO 9001 guidelines
  • Can be traced all the way back to production through a defined LOT number system
  • Total well volume: 12.6 µl
  • Is ideally suited for top reading instruments
  • Rounded square well design, i.e. they are square with rounded corners. This design combines the advantages of the square well, i.e. flexible working volume of 3 µl - 10 µl with the advantages of a round well, such as reduced wicking and bubbling
  • Suitable for transmission measurements
  • Has been specifically treated to provide an incresed protein binding
  • Solid bottom
  • Well profile: F-bottom (flat bottom)
  • MICROLON® 600, high binding
  • Sterile

source: Website GREINER BIO-ONE

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Greiner Bio-One - MICROPLATE, 1536 WELL, PS, F-BOTTOM, HIBASE - 782061

Customer’s voice

The pipetting robot is robust, easy to program and performs excellent. Reproducible and satisfactory results. We use the robot for challenging tasks such as accurate pipetting of drug compounds into enzymatic assays. Accurate and good mixing of components ensures reproducibility.

Olso University Hospital