Сatalog number:
3490AS
Amber Screw Cap Micro Tubes
Thermo Scientific™ Screw Cap Micro Tubes robust design and material selection are well suited for work with biologics and offer rich features, including ultra-clear externally threaded tubes and UV protective amber tubes. Options are available with or without a self-standing skirted bottom, non-knurl and knurled tubes for single hand operation, in 0.5mL, 1.5mL and 2.0mL sizes, and the option of multicolored caps, with or without tethered straps.
Сatalog number:
3457PK
Graduated Safelock Microcentrifuge Tubes
Find the security of a screw-cap tube with the ease-of-use of a snap-cap tube with Thermo Scientific™ Graduated Safelock Microcentrifuge Tubes. These tubes provide superior security during centrifugation. Simply position the hinged locking ball into the groove to prevent accidental cap opening, avoiding evaporation and ensuring sample integrity.
Сatalog number:
90411
Low Protein Binding Microcentrifuge Tubes
Сatalog number:
1255908
POROS™ 50 HQ Strong Anion Exchange Resin
Сatalog number:
3490S
Screw Cap Micro Tubes
Choose Thermo Scientific™ Screw Cap Micro Tubes, which available in conical and free-standing designs, when seeking secure, short-term sample storage in low temperatures. Their robust design and material selection are well suited for work with biologics and offer rich features, including ultra-clear, externally threaded tubes and UV protective amber tubes. Options include: with or without a self-standing skirted bottom, with or without tethered straps, non-knurl and knurled tubes for single-hand operation, choice of multicolored caps and volume sizes of 0.5mL, 1.5mL and 2.0mL sizes.
Сatalog number:
3448
Snap Cap Low Retention Microcentrifuge Tubes
Viscous liquids and costly reagents retained in a microcentrifuge tube effect assay accuracy and precision. Thermo Scientific™ Snap Cap Low Retention Microcentrifuge Tubes improves sample recovery without additives or coatings. The 0.6mL, 1.5mL and 2.0mL snap cap low retention tubes offers maximum sample recovery by significantly reducing surface binding.