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Researcher, Electrothermal

WPI offer a wide range of products designed for those working in the life science industry but just as importantly they offer great customer support and possess great product knowledge.
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Home  >   > P-1000
P-1000

P-1000

Next Generation Micropipette Puller from Sutter


  • Overview
  • Specifications
  • Accessories
  • Citations
  • Related Products

Overview

P-1000

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P-1000 DataSheet
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P-1000 DataSheet - French
/ Download as PDF

P-1000 Instruction Manual
/ Download as PDF

Pipette Cookbook
/ Download as PDF

Comparison P-1000 P-97
/ Download as PDF

  • Colour touch-screen interface
  • Safe heat mode to protect and extend filament life
  • Pipette Cookbook program directory
  • Pre-heat mode improves stability
  • Line repeat mode simplifies multi-line programming
  • Help topics and error detection
  • Glossary with micropipette and puller terminology
  • Copy & Paste function for writing new programs
  • Jaw temperature sensor helps define ideal pulling conditions
  • Record of last two pull results
  • Ramp test more easily accessed and can now be stored and referenced within each program. Helps to establish program heat settings and protect filament.
  • Two symmetrical pipettes with each pull
  • Self-contained air supply with filtration system and humidity control chamber
  • Memory storage for up to 100 programs
  • Two cooling modes: time and delay

Developed through years of experience with the Flaming/Brown style micropipette pullers and infused with leading edge technology, Sutter is proud to introduce the P-1000 micropipette puller. The most obvious new feature is the color touchscreen display that provides an intuitive and full-featured interface.

The extensive library of programs found in the popular Sutter Cookbook has been incorporated into the P-1000 puller and is available to the user via the touchscreen display. You need only specify the glass, filament, and type of pipette you require and a suitable program will be identified and available for installation. This takes the guesswork out of pipette pulling and simplifies programming.

The pre-heat mode actively heats and controls the jaw temperature and assures that the jaws have reached a specific temperature before the glass is pulled. This can increase the stability of the program from pull to pull.

Copy and paste functions ensure that programs can be easily written and the line repeat mode simplifies multi-line programming.

A safe heat mode is an additional feature that helps the user avoid using heat settings that might damage or burn out the filament. When the safe heat mode is turned on, the puller will “check” the installed heat and alert the user when a given heat value is too low or too high in relation to the ramp value. User notes can be added to each program for annotating important information.

New features for the P-1000 include: diagnostic testing of all puller components, built-in error detection of air pressure loss or filament burnout, easy access to ramp test, measurement of jaw temperature, and access to previous pull results with the heat on times for each cycle of the program. Help topics are pre-loaded to assist with on-site troubleshooting and the built-in glossary includes text, pictures, and diagrams explaining the terms used in micropipette fabrication. A rotary dial is offered as an alternative to the keypad for numerical entry.

Troubleshooting Pipette Variability

Recording of Webinar, May 2016

Specifications

Dimensions 21in x 14in x 12in
53cm x 36cm x 30cm
Weight 41lbs
18.59kg
Electrical 115/230 Volts
50/60 Hertz power line
RoHS Compliant  

Accessories


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FB320B

FB320B

3mm Box Filament, 2mm Wide

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FB330B

FB330B

3mm Box Filament, 3mm Wide

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FT345B

FT345B

Trough Filament, 4.5mm Wide

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FB215B

FB215B

2mm Box Filament,1.5mm Wide

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FB220B

FB220B

2mm Box Filament, 2mm Wide

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FB230B

FB230B

2mm Box Filament, 3mm Wide

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FB245B

FB245B

2.5mm Box Filament, 4.5mm Wide

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FB255B

FB255B

2.5mm Box Filament, 2.5mm Wide

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FB315B

FB315B

3mm Box Filament, 1.5mm Wide

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FT320B

FT320B

Trough Filament, 2mm Wide

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FT330B

FT330B

Trough Filament, 3mm Wide

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FT315B

FT315B

Trough Filament, 1.5mm Wide

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Citations

Amarasinghe, P., & Abelev, A. (2015). Micromechanical Determination of the Tensile Strength of Flocculated Artificial Marine Cohesive Sediment. Mechanics Research …. Retrieved from https://www.sciencedirect.com/science/article/pii/S0093641315000038

Chaurasia, A., & Sajjadi, S. (2015). Millimetric core–shell drops via buoyancy assisted non-confined microfluidics. Chemical Engineering Science. Retrieved from https://www.sciencedirect.com/science/article/pii/S0009250915001438

Han, Z., Jiang, Y., Yang, Y., Li, X., Yang, Z., Cao, K., & Wang, D. (2015). Deletion of PDK1 Causes Cardiac Sodium Current Reduction in Mice. PloS One. Retrieved from https://dx.plos.org/10.1371/journal.pone.0122436

He, M., Xue, Z., Zhang, Y., Huang, Z., & Fang, X. (2015). Development and Characterizations of A Miniature Capillary Electrophoresis Mass Spectrometry System. Analytical …. Retrieved from https://pubs.acs.org/doi/abs/10.1021/ac504868w

Koganti, S., Zhu, Z., Subbotina, E., & Gao, Z. (2015). Disruption of KATP Channel Expression in Skeletal Muscle by Targeted Oligonucleotide Delivery Promotes Activity-linked Thermogenesis. Molecular …. Retrieved from https://www.nature.com/mt/journal/v23/n4/abs/mt201521a.html

Ladas, T., & Chiang, C. (2015). Seizure reduction through interneuron-mediated entrainment using low frequency optical stimulation. Experimental …. Retrieved from https://www.sciencedirect.com/science/article/pii/S0014488615001077

Lee, W., Wahman, D., & Pressman, J. (2015). Monochloramine-sensitive amperometric microelectrode: optimization of gold, platinum, and carbon fiber sensing materials for removal of dissolved oxygen. Ionics. Retrieved from https://link.springer.com/article/10.1007/s11581-015-1454-7

Pfister, P., Rogers, M., & Parris, K. (2015). METHODS OF IDENTIFYING, ISOLATING AND USING ODORANT AND AROMA RECEPTORS. US Patent 20,150,005,177. Retrieved from https://www.freepatentsonline.com/y2015/0005177.html

Smolina, N., & Kostareva, A. (2015). Primary Murine Myotubes as a Model for Investigating Muscular Dystrophy. BioMed Research …. Retrieved from https://downloads.hindawi.com/journals/bmri/aa/594751.pdf

Wei, Y., Bian, C., Ouyang, Z., & Xu, W. (2015). A pulsed pinhole atmospheric pressure interface for simplified mass spectrometry instrumentation with enhanced sensitivity. Rapid Communications in …. Retrieved from https://onlinelibrary.wiley.com/doi/10.1002/rcm.7140/pdf

Yeo, S., Tu, F., Kim, S., Yi, G., Yoo, P., & Lee, D. (2015). Angle-and strain-independent coloured free-standing films incorporating non-spherical colloidal photonic crystals. Soft Matter. Retrieved from https://pubs.rsc.org/en/content/articlehtml/2015/sm/c4sm02482f

Zhang, Z., Sun, L., Zhu, G., Yan, X., & Dovichi, N. (2015). Integrated strong cation-exchange hybrid monolith coupled with capillary zone electrophoresis and simultaneous dynamic pH junction for large-volume proteomic. Talanta. Retrieved from https://www.sciencedirect.com/science/article/pii/S0039914015000685

Zhang, Z., Yan, X., Sun, L., Zhu, G., & Dovichi, N. (2015). Detachable Strong Cation Exchange Monolith, Integrated with Capillary Zone Electrophoresis and Coupled with pH Gradient Elution, Produces Improved Sensitivity. Analytical Chemistry. Retrieved from https://pubs.acs.org/doi/abs/10.1021/acs.analchem.5b00789

Zhao, Y., Riley, N., Sun, L., & Hebert, A. (2015). Coupling Capillary Zone Electrophoresis with Electron Transfer Dissociation and Activated Ion Electron Transfer Dissociation for Top-Down Proteomics. Analytical …. Retrieved from https://pubs.acs.org/doi/abs/10.1021/acs.analchem.5b00883

 

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Flaming/Brown Pipette Puller from Sutter

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