- Thermo Fisher Scientific Introduces New Innovatively Designed Pipetting System
Product News: Thermo Fisher Scientific Introduces New Innovatively Designed Pipetting SystemThermo Fisher Scientific Inc., the world leader in serving science, today introduced the new Thermo Scientific F1-ClipTip pipetting system, enabling users to deliver consistent, reproducible pipetting with higher-quality results. Its revolutionary ClipTip interlocking technology locks tips securely into place to deliver an airtight seal on every channel.
“Researchers are constantly challenged with pipette tips that leak air, loosen or fall off in the middle of their protocols, ruining or contaminating the assay,” said Raymond Mercier, liquid transfer product director of Thermo Fisher. “Our new F1-ClipTip pipetting system’s breakthrough interlocking design securely locks tips in place, which increases reproducibility, reduces force required to attach the tips and ensures the best possible accuracy and precision.”
Available for both single and multichannel pipettes, the Thermo Scientific F1-ClipTip pipetting system is simple but powerful. With minimal force, each tip is clipped securely on the F1-ClipTip pipette using a patented three-interlocking clip design. The pipette and tip form a complete seal to secure the sample volume in each tip for enhanced accuracy and precision.
Additional features include:
• Exceptionally lightweight: Reduced fatigue during extended periods of pipetting
• Adjustable 120° finger rest: For both right- and left-handed operator comfort – allows the hand to relax during pipetting cycles
• Patented super blow-out: 150 percent increase in air boost to ensure efficient delivery of micro-volumes and prevent capillary action for low volume pipetting
• Patented soft-touch tip ejection: Innovative gearing mechanism produces more downward force with less effort, releasing tips with a gentle push
• Volume lock adjustment: Secure volume setting prevents undesirable volume drift during operation
• Ergonomic design: Low tip attachment, ejection and plunger forces for safe and comfortable use, reducing the risk of repetitive strain injuries (RSI)