Multichannel microliter pipettes Eppendorf Reference® 2 (EU IVD Product), variable

The Reference® 2 is the successor to the highly successful Reference pipette, and enhances the range’s already high standards with a new design, reduced weight and operating forces and multi-channel versions. As the premium product in Eppendorf’s pipette portfolio, the Reference® 2 provides the most accurate results possible alongside robust, reliable handling and optimum user safety.
New features: An embedded RFID chip contains all relevant data regarding the pipette and offers with Eppendorf TrackIT simple identification and documentation. The new Reference 2 multi channel offers a channel indicator and a spring-loaded tip cone for optimum tip fit and reduced effort. The range of the variable single channel pipettes have been extended by the volume sizes up to 5000µl and 10,000µl.

  • Color coded and volume labeled for quick identification of the volume size/ tip size
  • Round upper part makes it possible to work in every position
  • 4-digit display for exact volume setting (clearly visible from every angle)
  • Quick and secure volume setting, include volume lock
  • Fully autoclavable
  • Movable parts and external edges made from stainless steel equip the pipette with outstanding robustness at potential impact sites and for internal components
  • Channel indicator guarantees a continuously identical pipette alignment during the work process
  • Spring-loaded tip cone for reproducible tip fit and reduced effort (to be switched on/off optionally)
  • High flexibility and simple maintenance with the ability to remove single cones

Toote variatsioonid

AccuracyAutoclavableColour codingDivisionMax. capacityMin. capacityNo. of channelsCatalog numberPrecisionPKKogus 
2,0 ± R%YesMedium grey0.01 µl129.284 9411,0 ≤·VK%1.00
2,0 ± R%YesMedium grey0.01 µl89.284 9401,0 ≤·VK%1.00
0,6 ± R%YesOrange0.2 µl129.284 9450,3 ≤·VK%1.00
0,6 ± R%YesOrange0.2 µl89.284 9440,3 ≤·VK%1.00
0,8 ± R%YesYellow0.1 µl129.284 9430,3 ≤·VK%1.00
0,8 ± R%YesYellow0.1 µl89.284 9420,3 ≤·VK%1.00