STIRRER, Vertical, Lateral and Conventional Tumble, DC Motor, 1250 Max RPM, 25.4mm Long Stirring Area, 48 MGO NdFeB Magnetic Drive Cylinder, Connection Cord Outlet on side, 120/220 Volts, 50/60 Hz, CE Compliant
MultiStirrus™ Tumble Stirrer, Manual Control
STIRRER, Vertical, Lateral and Conventional Tumble, DC Motor, 1250 Max RPM, 25.4mm Long Stirring Area, 48 MGO NdFeB Magnetic Drive Cylinder, Connection Cord Outlet on side, 120/220 Volts, 50/60 Hz, CE Compliant
Container Used | Bottles, Syringes, Tubes, Vials |
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Mode of Use | Benchtop, Robotic Pipettor |
Control Type | Manual Control |
Magnetic Cylinder Length | 25.4mm |
Length | 54.40mm |
Width | 54.40mm |
Height | 196.9mm |
Motor Coupling | Direct Drive |
Motor Specs | Brushed DC |
Power Supply Output | 24VDC, 4.17A |
Power Supply Input | 120/220V |
Frequency | 50/60 Hz |
CE Compliant | Yes |
Material | PVC |
Magnet Strength | 48MGO |
Max RPM | 1500 |
Drive System | Tumble Stirrer |
The Multi Stirrus Systems can be used as Vertical Tumble Stirrers, Lateral Vortex Tumble Stirrers, and Conventional Magnetic Stirrers. A Vertical Tumble Stirrer causes stir elements of all shapes and sizes to tumble end over end inside several vessels. A Lateral Vortex Stirrer causes stir elements of all shapes and sizes to spin laterally within each of many vessels. A conventional Magnetic Stirrer causes one stir bar to spin horizontally in the center of a single bottle or vessel. The Multi Stirrus Systems are covered by USA Patent #6,176,609, USA Patent #7,484,880, European Union Patent #1,736,235 and German Patent #60 2006 026 122.5. V&P Scientific’s technology enables the user to use three different methods of mixing using the same machine. A Multi Stirrus System can be used as Vertical Tumble Stirrer to mix samples in several, microcentrifuge tubes, test tubes, vials, and syringes and to keep particulates in suspension in syringes troughs and reservoirs. A Multi Stirrus System can be used as a Lateral Vortex Tumble Stirrer to mix many samples in microcentrifuge tubes, test tubes, vials, and syringes. A Multi Stirrus System can also be used as a Conventional Horizontal Stirrer to mix a single bottle or vessel.
The ability to stir extremely viscous solutions, slurries, and emulsions is a very useful characteristic of the V&P Multi Stirrus System Stirrers. Our Multi Stirrus System Stirrers and Stir Elements have the ability to mix even solutions of 100,000 centistokes (6.6 times more viscous than honey).
Multiple Tube or Microplate Stirring |
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Microplate Vertical Tumble Stirring |
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Heating/Cooling With Vertical Tumble Stirring |
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Reservoir Vertical Tumble Stirring to keep Particulates in Suspension |
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Vertical Tumble Stirring Applications |
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However, as a safety factor, we recommend that people with pacemakers keep at least 36″ or 91 cm from the Alligator Vertical Tumble Stirrers and the Vortex Lateral Tumble Stirrer. V&P does not make any claims in regard to the validity of the 5 gauss threshold for deactivating implanted medical devices. The 5 gauss magnetic field is a guideline to avoid risks associated with magnets and implanted medical devices such as pacemakers. For more information, please consult your physician. We try to position the magnet as close to the deck as possible given the constraints of the magnetic cylinders and deck design. Note the distance between the magnet surface and the surface of the deck varies for each magnetic tumble stirrer design and thus the gauss levels at the surface of the deck vary.
Pin | Description | nl Transferred | CV% | |
---|---|---|---|---|
0.229 mm diameter (FP9) | Total Pin | Uncoated | 7.41 | 2.4 |
Hydrophobic | 7.46 | 5.4 | ||
0.229 mm diameter (FP9) | Hanging Drop | Uncoated | N/A | N/A |
Hydrophobic | 2.09 | 3.8 | ||
0.457 mm diameter (FP1) | Total Pin | Uncoated | 33.48 | 3.2 |
Hydrophobic | 28.17 | 7.5 | ||
0.457 mm diameter (FP1) | Hanging Drop | Uncoated | 16.96 | 4.5 |
Hydrophobic | 8.51 | 0.8 | ||
0.787 mm diameter (FP3) | Total Pin | Uncoated | 87.32 | 3.9 |
Hydrophobic | 77.4 | 3.9 | ||
0.787 mm diameter (FP3) | Hanging Drop | Uncoated | 48.77 | 1.2 |
Hydrophobic | 43.05 | 9.4 | ||
1.19 mm diameter (VP 409 & VP 386) | Total Pin | Uncoated | 247.22 | 2.8 |
Hydrophobic | 192.67 | 2.6 | ||
1.19 mm diameter (VP 409 & VP 386) | Hanging Drop | Uncoated | 76.35 | 1.6 |
Hydrophobic | 108.4 | 2.8 | ||
1.58 mm diameter (VP 408 & VP 384) | Total Pin | Uncoated | 273.5 | 4.6 |
Hydrophobic | 259.25 | 3.1 | ||
1.58 mm diameter (VP 408 & VP 384) | Hanging Drop | Uncoated | 201.93 | 5 |
Hydrophobic | 170.04 | 7.5 |
Transfer Of Horseradish Peroxidase In Tris Buffered Saline With Pin Tools
Coating pins will reduce the total amount of liquid transferred and also reduce the amount of non-specific binding to the stainless-steel pins. If the substance you are transferring has high non-specific binding this will be an important factor in selecting your pins.
Pin | Description | nl Transferred | CV% | |
---|---|---|---|---|
0.229 mm diameter (FP9) | Total Pin | Uncoated | 7.41 | 2.4 |
Hydrophobic | 7.46 | 5.4 | ||
0.229 mm diameter (FP9) | Hanging Drop | Uncoated | N/A | N/A |
Hydrophobic | 2.09 | 3.8 | ||
0.457 mm diameter (FP1) | Total Pin | Uncoated | 33.48 | 3.2 |
Hydrophobic | 28.17 | 7.5 | ||
0.457 mm diameter (FP1) | Hanging Drop | Uncoated | 16.96 | 4.5 |
Hydrophobic | 8.51 | 0.8 | ||
0.787 mm diameter (FP3) | Total Pin | Uncoated | 87.32 | 3.9 |
Hydrophobic | 77.4 | 3.9 | ||
0.787 mm diameter (FP3) | Hanging Drop | Uncoated | 48.77 | 1.2 |
Hydrophobic | 43.05 | 9.4 | ||
1.19 mm diameter (VP 409 & VP 386) | Total Pin | Uncoated | 247.22 | 2.8 |
Hydrophobic | 192.67 | 2.6 | ||
1.19 mm diameter (VP 409 & VP 386) | Hanging Drop | Uncoated | 76.35 | 1.6 |
Hydrophobic | 108.4 | 2.8 | ||
1.58 mm diameter (VP 408 & VP 384) | Total Pin | Uncoated | 273.5 | 4.6 |
Hydrophobic | 259.25 | 3.1 | ||
1.58 mm diameter (VP 408 & VP 384) | Hanging Drop | Uncoated | 201.93 | 5 |
Hydrophobic | 170.04 | 7.5 |
Transfer Of Horseradish Peroxidase In Tris Buffered Saline With Pin Tools
Although the slots in the pin are a precise volume, the liquid that is transferred is usually more. The reason for this is due to the surface tension of the liquid causing the liquid in the slot to “bow out” thus increasing the volume of the liquid in the slot. If is important for you to transfer exactly a certain volume we can make custom slots to match the surface tension characteristics of your liquid
Solvent/Sample | Concentration | CV% | nl FITC Transferred | CV% | nl FITC Transferred |
---|---|---|---|---|---|
Uncoated | Uncoated | Hydrophobic Coated | Hydrophobic Coated | ||
DMSO (-) | 0 | 8.1 | 353.42 | 7.5 | 298.72 |
DMSO + DNA (mg/ml) | 0.5 | 6.6 | 497.21 | 6.6 | 435.86 |
0.25 | 9 | 432.49 | 4.1 | 391.93 | |
0.125 | 8.9 | 363.64 | 0.9 | 344.75 | |
0.0625 | 2.3 | 381.86 | 2 | 331.68 | |
0.0313 | 1.5 | 378.03 | 4.4 | 331.71 | |
0.0156 | 1.2 | 357.52 | 1.4 | 329.03 | |
Tris (-) | 0 | 4.9 | 577.31 | 7.2 | 493.53 |
Tris + DNA (mg/ml) | 0.5 | 4.5 | 540.53 | 1.1 | 477.5 |
0.25 | 4.6 | 518.21 | 6.1 | 456.75 | |
0.125 | 15.8 | 583.25 | 4.1 | 438.82 | |
0.0625 | 4.2 | 551.17 | 3.1 | 433.69 | |
0.0313 | 4.4 | 536.66 | 2.3 | 458.37 | |
0.0156 | 2.9 | 528.53 | 1.2 | 441.1 | |
Tris + BSA (%) | 4 | 5.4 | 462.13 | 11 | 409.27 |
1 | 4 | 452.86 | 2.7 | 426.58 | |
0.25 | 11.7 | 456.45 | 1.3 | 408.72 | |
0.0625 | 1.1 | 445.22 | 6.5 | 393.07 | |
0.0156 | 3.7 | 462.85 | 3.9 | 430.2 | |
0.0039 | 1.5 | 493.54 | 2.2 | 437.29 | |
0.001 | 2.9 | 504.25 | 0.7 | 475.96 |
1. Increasing the concentration of DNA (sheared salmon sperm) to .25 mg/ml significantly increases the volume of DMSO liquid transferred for both coated and uncoated FP3S500 Slot Pins.
2. Increasing the concentration of DNA does not significantly increase the volume of Tris buffer (aqueous) transferred by both coated and uncoated FP3S500 Slot Pins.
3. Increasing the concentration of BSA (Bovine Serum Albumin) significantly decreases the volume of Tris buffer transferred by both coated and uncoated FP3S500 Slot Pins.
4. Hydrophobic coated FP3S500 Slot Pins transferred less DMSO – DNA and less Tris DNA and less Tris BSA than the uncoated FP3S500 Slot Pins.
5. Both coated and uncoated FP3S500 pins transfer significantly more aqueous solution than DMSO.
Solvent/Sample | Concentration | CV% | nl FITC Transferred | CV% | nl FITC Transferred |
---|---|---|---|---|---|
Uncoated | Uncoated | Hydrophobic Coated | Hydrophobic Coated | ||
DMSO (-) | 0 | 4.2 | 49.38 | 2.1 | 49.31 |
DMSO + DNA (mg/ml) | 0.5 | 4.9 | 51.24 | 2.6 | 56.79 |
0.25 | 1.7 | 50.2 | 1.2 | 49.53 | |
0.125 | 1.5 | 51.27 | 2.3 | 49.77 | |
0.0625 | 2.2 | 49.34 | 4.1 | 48.19 | |
0.0313 | 1.2 | 49.03 | 0.2 | 50.23 | |
0.0156 | 2.4 | 45.9 | 1.4 | 46.64 | |
Tris (-) | 0 | 2.6 | 89.51 | 2.9 | 91.34 |
Tris + DNA (mg/ml) | 0.5 | 7 | 77.11 | 0.6 | 84.62 |
0.25 | 3.9 | 82.22 | 1.6 | 84.89 | |
0.125 | 3.9 | 85.42 | 1 | 85.08 | |
0.0625 | 1.5 | 85.36 | 2.8 | 85.03 | |
0.0313 | 2 | 84.52 | 3 | 88.19 | |
0.0156 | 2.6 | 82.92 | 2.8 | 83.2 |
1. In contrast to the FP3S500 data, increasing the concentration of DNA to .25 mg/ml does not significantly increase the volume of DMSO liquid transferred for both coated and uncoated FP1S50 Slot Pins.
2. Increasing the concentration of DNA does not significantly increase the volume of Tris buffer (aqueous) transferred by both coated and uncoated FP1S50 Slot Pins.
3. In contrast to the FP3S500 data, FP1S50 coated pins transferred about the same volume of DNA at all concentrations as did uncoated pins.
4. Both coated and uncoated FP1S50 pins transfer significantly more aqueous solution than DMSO.
5. The differences between the FP3S500 and the FP1S50 pin may be due to the different pin diameter’s effect on contact angle and therefore on the “wetting” of the pin. See the diagram on the link to / ah energy system.
Pin | Description | nl Transferred | CV% | |
---|---|---|---|---|
0.229 mm diameter (FP9) | Total Pin | Uncoated | 7.41 | 2.4 |
Hydrophobic | 7.46 | 5.4 | ||
0.229 mm diameter (FP9) | Hanging Drop | Uncoated | N/A | N/A |
Hydrophobic | 2.09 | 3.8 | ||
0.457 mm diameter (FP1) | Total Pin | Uncoated | 33.48 | 3.2 |
Hydrophobic | 28.17 | 7.5 | ||
0.457 mm diameter (FP1) | Hanging Drop | Uncoated | 16.96 | 4.5 |
Hydrophobic | 8.51 | 0.8 | ||
0.787 mm diameter (FP3) | Total Pin | Uncoated | 87.32 | 3.9 |
Hydrophobic | 77.4 | 3.9 | ||
0.787 mm diameter (FP3) | Hanging Drop | Uncoated | 48.77 | 1.2 |
Hydrophobic | 43.05 | 9.4 | ||
1.19 mm diameter (VP 409 & VP 386) | Total Pin | Uncoated | 247.22 | 2.8 |
Hydrophobic | 192.67 | 2.6 | ||
1.19 mm diameter (VP 409 & VP 386) | Hanging Drop | Uncoated | 76.35 | 1.6 |
Hydrophobic | 108.4 | 2.8 | ||
1.58 mm diameter (VP 408 & VP 384) | Total Pin | Uncoated | 273.5 | 4.6 |
Hydrophobic | 259.25 | 3.1 | ||
1.58 mm diameter (VP 408 & VP 384) | Hanging Drop | Uncoated | 201.93 | 5 |
Hydrophobic | 170.04 | 7.5 |
Hydrophobic coating pins will reduce the total amount of aqueous HRP liquid transferred and also reduce the amount of non-specific binding to the stainless-steel pins. If the substance you are transferring has high non-specific binding this will be an important factor in selecting your pins.
Pin diameter also has an effect on the degree of reduction of liquid transfer with hydrophobic coating as the smaller the diameter the less the reduction of transfer. This is most likely due to the curvature of the pin affecting the wetting contact angle
Pin | Description | nl Transferred | CV% | ||
---|---|---|---|---|---|
0.457 mm diameter (FP1) | 6 nl Slot | Total Pin* | Uncoated | 25.6 | 10.8 |
Hydrophobic | N/A | N/A | |||
10 nl Slot | Total Pin* | Uncoated | 23.36 | 6.1 | |
Hydrophobic | 25.85 | 6.9 | |||
50 nl Slot | Total Pin* | Uncoated | 67.83 | 2.5 | |
Hydrophobic | N/A | N/A | |||
0.787 mm diameter (FP3) | 100 nl Slot | Total Pin* | Uncoated | 180.32 | 7.2 |
Hydrophobic | 205.84 | 5.5 | |||
200 nl Slot | Total Pin* | Uncoated | 277.82 | 4.9 | |
Hydrophobic | 287.3 | 3.8 | |||
500 nl Slot | Total Pin* | Uncoated | 581.16 | 5.2 | |
Hydrophobic | 555.69 | 3 |
Hydrophobic coating pins will slightly increase the total amount of DMSO FITC liquid transferred.
Pin | Description | nl Transferred | CV% | |
---|---|---|---|---|
0.787 mm diameter (FP3) | 100 nl Slot Total Pin, Including Slot | Uncoated | 195.69 | 1.6 |
Hydrophobic | 170.2 | 2.9 | ||
0.787 mm diameter (FP3) | 100 nl Slot, Slot Only | Uncoated | 149.67 | 4.9 |
Hydrophobic | 129.61 | 7.6 | ||
0.787 mm diameter (FP3) | 200 nl Slot Total Pin, Including Slot | Uncoated | 269.77 | 1.9 |
Hydrophobic | 228.62 | 17.1 | ||
0.787 mm diameter (FP3) | 200 nl Slot, Slot Only | Uncoated | 237.52 | 8.9 |
Hydrophobic | 186.9 | 5.9 |
Although the slots in the pin are a precise volume, the liquid that is transferred is usually more because of the volume carried on the sides of the pins.
As seen with other aqueous data the amount transferred on hydrophobic coated Slot pins is less than on uncoated Solid or Slot pins. Thus Hydrophobic coating has the most effect on aqueous transfers.
Note: Same volume (200ul for 96 Format and 74 ul for 384 Format) in recipient plates and same pin withdrawal speed for all pins. Changes to pin withdrawal speed or volume in the source plate can result in different volumes being transferred.
Transfer volumes should always be confirmed by customers for their assay conditions and automated system.
Pin Type | Pin Diameter(mm) | Shape | 96 Format Low Range(nL)² | 96 Format High Range(nL)² |
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FP9 | 0.229 | Solid | 13 | 39 |
FP8 | 0.356 | Solid | 15 | 37 |
FP1 | 0.457 | Solid | 22 | 61 |
FP1S6 | 0.457 | 6nL Slot | 34 | 67 |
FP1S10 | 0.457 | 10nL Slot | 39 | 74 |
FP1S50 | 0.457 | 50nL Slot | 90 | 124 |
FP3 | 0.787 | Solid | 93 | 213 |
FP3S100 | 0.787 | 100nL Slot | 213 | 334 |
FP3S200 | 0.787 | 200nL Slot | 311 | 449 |
FP3S500 | 0.787 | 500nL Slot | 515 | 671 |
FP4 | 0.914 | Solid | 126 | 289 |
Footnotes: (1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well |
Pin Type | Pin Diameter(mm) | Shape | 96 Format Low Range(nL)² | 96 Format High Range(nL)² |
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FP9 | 0.229 | Solid | 13 | 38 |
FP8 | 0.356 | Solid | ||
FP1 | 0.457 | Solid | 23 | 60 |
FP1S6 | 0.457 | 6nL Slot | 33 | 67 |
FP1S10 | 0.457 | 10nL Slot | 40 | 75 |
FP1S50 | 0.457 | 50nL Slot | 86 | 119 |
FP3 | 0.787 | Solid | 76 | 209 |
FP3S100 | 0.787 | 100nL Slot | 188 | 324 |
FP3S200 | 0.787 | 200nL Slot | 288 | 436 |
FP3S500 | 0.787 | 500nL Slot | 473 | 649 |
FP4 | 0.914 | Solid | ||
Footnotes: (1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well |
Pin Type | Pin Diameter(mm) | Shape | Low Range(nL)² | High Range(nL)² |
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FP | 1.58 | Solid Pointed | 175 | 594 |
FPS.5 | 1.58 | 500nL Slot | 524 | 962 |
FPS | 1.58 | 1000nL Slot | 1056 | 1476 |
FPS2 | 1.58 | 2000nL Slot | 1739 | 2174 |
FPS5 | 1.58 | 5000nL Slot | 5150 | 4953 |
FP6 | 1.58 | Solid Flat | 465 | 960 |
FP6S.5 | 1.58 | 500nL Slot | 934 | 1445 |
FP6S | 1.58 | 1000nL Slot | 1396 | 1930 |
FP6S2 | 1.58 | 2000nL Slot | 2072 | 2637 |
FP6S5 | 1.58 | 5000nL Slot | 4820 | 4693 |
Footnotes:(1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well for 96 Format and 75ul source plate volume per well for 384 Format |
Pin Type | Pin Diameter(mm) | Shape | 96 Format Low Range(nL)² | 96 Format High Range(nL)² | 384 Format Low Range(nL)³ | 384 Format High Range(nL)³ |
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FP9 | 0.229 | Solid | 4 | 10 | 3 | 8 |
FP8 | 0.35 | Solid | 13 | 26 | 6 | 18 |
FP1 | 0.457 | Solid | 18 | 43 | 11 | 31 |
FP1S6 | 0.457 | 6nL Slot | 24 | 49 | 15 | 34 |
FP1S10 | 0.457 | 10nL Slot | 30 | 54 | 21 | 40 |
FP1S20 | 0.457 | 20nL Slot | 37 | 61 | 27 | 46 |
FP1S30 | 0.457 | 30nL Slot | 46 | 68 | 35 | 54 |
FP1S40 | 0.457 | 40nL Slot | 57 | 78 | 45 | 63 |
FP1S50 | 0.457 | 50nL Slot | 70 | 90 | 56 | 75 |
FP3 | 0.787 | Solid | 67 | 139 | 29 | 79 |
FP4 | 0.91 | Solid | 94 | 197 | 34 | 98 |
FP3S100 | 0.787 | 100nL Slot | 175 | 241 | 114 | 163 |
FP3S200 | 0.787 | 200nL Slot | 280 | 332 | 203 | 250 |
FP3S500 | 0.787 | 500nL Slot | 535 | 559 | 427 | 464 |
FP4S1000 | 0.91 | 1000nL Slot | 940 | 1011 | 704 | 800 |
FP4S2000 | 0.91 | 2000nL Slot | 1518 | 1608 | 1277 | 1362 |
Footnotes: (1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well (3) 75ul source plate volume per well |
Pin Type | Pin Diameter (mm) | Shape | 96 Format Low Range(nL)² | 96 Format High Range(nL)² | 384 Format Low Range(nL)³ | 384 Format High Range(nL)³ |
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FP9H | 0.229 | Solid | 4 | 10 | 3 | 8 |
FP8H | 0.35 | Solid | 9 | 24 | 6 | 17 |
FP1H | 0.457 | Solid | 15 | 39 | 9 | 27 |
FP1S6H | 0.457 | 6nL Slot | 23 | 49 | 14 | 32 |
FP1S10H | 0.457 | 10nL Slot | 29 | 53 | 20 | 38 |
FP1S20H | 0.457 | 20nL Slot | 35 | 59 | 26 | 43 |
FP1S30H | 0.457 | 30nL Slot | 47 | 69 | 35 | 53 |
FP1S40H | 0.457 | 40nL Slot | 54 | 75 | 41 | 58 |
FP1S50H | 0.457 | 50nL Slot | 69 | 90 | 57 | 73 |
FP3H | 0.787 | Solid | 67 | 134 | 27 | 76 |
FP4H | 0.91 | Solid | 95 | 189 | 32 | 102 |
FP3S100H | 0.787 | 100nL Slot | 170 | 227 | 108 | 164 |
FP3S200H | 0.787 | 200nL Slot | 266 | 320 | 190 | 239 |
FP3S500H | 0.787 | 500nL Slot | 520 | 542 | 416 | 456 |
FP4S1000H | 0.91 | 1000nL Slot | 932 | 1000 | 741 | 805 |
FP4S2000H | 0.91 | 2000nL Slot | 1571 | 1638 | 1351 | 1423 |
Footnotes: (1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well (3) 75ul source plate volume per well |
Pin Type | Diameter (mm) | Shape | 96 Format Low Range(nL)² | 96 Format High Range(nL)² | 384 Format Low Range(nL)³ | 384 Format High Range(nL)³ |
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FP | 1.58 | Solid Pointed | 147 | 411 | 168 | 395 |
FPS.5 | 1.58 | 500nL Slot | 442 | 704 | 631 | 843 |
FPS | 1.58 | 1000nL Slot | 893 | 1130 | 1343 | 1498 |
FPS2 | 1.58 | 2000nL Slot | 1911 | 2038 | 2607 | 2767 |
FPS5 | 1.58 | 5000nL Slot | 3908 | 4296 | 5180 | 5253 |
FP6 | 1.58 | Solid Flat | 323 | 674 | 154 | 398 |
FP6S.5 | 1.58 | 500nL Slot | 734 | 1042 | 855 | 1053 |
FP6S | 1.58 | 1000nL Slot | 1210 | 1500 | 1638 | 1717 |
FP6S2 | 1.58 | 2000nL Slot | 2299 | 2384 | 2787 | 3068 |
FP6S5 | 1.58 | 5000nL Slot | 4329 | 4656 | 5237 | 5245 |
Footnotes:(1) Delivery volume range is determined by speed of withdrawal from source liquid: Z-Speed Range = 1.5-30 mm/sec, slow speed = low volume delivery range, fast speed = high volume delivery range (2) 200ul source plate volume per well (3) 75ul source plate volume per well |