Reduce waste and save bench top and storage space with the advanced Thermo Scientific™ ART™ Nonfiltered Reload System. This system provides an environmentally-responsible option without compromising sterility.
Features:
- Stackable barrier tip packaging allows for tips to pass through offset holes in lower insert
- Blister sleeve guide rails align tip inserts for smooth transfer into the rack
- Outer sleeve protects tips from exterior contamination while refilling inserts
- Tip packaging option reduces plastic waste
- Rigid insert design provides reliable tip loading
- Lot number and description are printed on every insert
Note:
Empty rack required for -RT parts
Offering a broad selection of barrier, non-filter and specialty tips to fit virtually any pipette in your lab, Thermo Scientific™ ART™ pipette tips provide precise sample delivery across many applications. From raw materials to the finished product, all components of each manufacturing lot are fully traceable and produced in a controlled environment. From 10 µL to 10 ML, every tip is certified to meet the industry’s highest standards for molding precision, clarity and sterility.
Universal Fit
These tips are specifically designed and quality tested to meet manufacturing specifications for optimum results when used with virtually any pipette in your laboratory.
Clean Claims
ART pipette tips are certified Free of RNase, DNase, DNA, ATP, and Pyrogens contamination.
Ultimate Protection
Researchers have made ART self-sealing barrier tips their first choice in sample protection. The ART barrier seals when exposed to potential aerosol and liquid contaminants, trapping them inside. This provides 100% security from carryover contamination of samples.
Maximum Sample Recovery
Using advanced low retention technology, the ART low retention tips’ hydrophobic inner surface significantly reduces sample loss to adhesion and maximizes sample recovery.
Environmentally-Friendly
The patented ART barrier and non-filtered reload system provides an environmentallyresponsible solution reducing plastic waste by 40% without compromising sterility.