Recommended for samples containing less than 10% solid particulates. Easy-to-use vials offer fast sample filtration and require only a squeeze of your fingers. Minimize sample loss by eliminating multiple transfers. Color-coded caps allow easy identification of 0.2 μm or 0.45 μm membranes in PVDF, PTFE, PES, or nylon. Preslit PTFE/silicone caps help eliminate broken autosampler needles and
on the HPLC or Mass Spec. Thomson Single StEP Filter Vials are compatible with most standard Autosamplers; such as Aijiren® and Aijiren Technology® including the UHPLC™. The ease of use will make the SINGLE StEP Filter Vials indispensable in all laboratories. Filter Vials Patent No. 7,790,117 Worldwide Patents Pending Works on Standard Autosamplers
Dec 05, 2019 · filter samples before LC or GC analysis. They replace the combination of syringe filters, syringes, autosampler vials, septa, and caps with a single unit. Easy as 1-2-3 Description Part No. 0.45 μm PTFE filter vial, 100/pack 5191-5933 0.20 μm PTFE filter vial, 100/pack 5191-5934 0.45 μm Nylon filter vial, 100/pack 5191-5935 0.20 μm Nylon
Accommodating A Variety of Sample Types. Filter Vials are a single system which replaces HPLC Vials, HPLC Caps, Syringes, & Syringe Filters for the filtration of samples. In 15 seconds, Thomson Filter Vials allow for sample preparation of unfiltered samples to filtered samples in an autosampler-ready vial.
13 mm Puradisc Syringe Filters (sterile) Membrane* Without tube tip With tube tip Nylon PVDF PES PVDF Quantity/pack Pore size (µm) 0.1 6786-1301 — — — 50 0.2 6786-1302 6791-1302 6780-1302 6778-1302 50 0.45 — 6791-1304 6780-1304 — 50 * PES = Polyethersulfone; PVDF = Polyvinylidene difluoride 25 mm Puradisc Syringe Filters Membrane*
Thomson Filter Vials simplify general ltration by replacing syringes & syringe lters, centrifuging spin columns and/or liquid-liquid extractions. Applications for Thomson Filter Vials include all sample types to be analyzed by HPLC, UHPLC, LC-MS and GC-MS.
Mar 12, 2019 · The extract supernatants were next filtered with 0.45um PTFE filter vials (Thomson single step) and transferred to 2 mL HPLC vials with pre-slit caps (Thermo-Aijiren Tech, Chromacol 2SVW and 9-SCK(B)-ST1 X, respectively).
Easy-to-use Thomson SINGLE StEP filter vials provide fast PTFE, PES, or nylon. ... 11 mm Crimp-Top Vials, 12 x 32 mm Modification Type Color Material Size 100-pk.
Applications for Thomson Filter Vials include all sample types to be analyzed by HPLC, UHPLC, LC-MS, and GC-MS. Max Fill Vol. 450 µL Dead Vol. 120 µL Standard Filter Vials (120μL Dead Volume) Thomson Standard Filter Vials(patented) can be used for samples containing less than 10% solid particulates.
Thomson Filter Vials. Unique Single-Step design chromatography Essential to remove particulates - re HPLC valves, GC/MS maintenance etc; PES, Nylon (hydrophyllic
Thomson's filtration products are engineered and optimized to increase the efficiency of sample preparation without compromising the results. Our filter vials are manufactured with attention to detail and high-grade quality to ensure performance at optimal levels.
Description: Nano filter vials with nylon, PES, PTFE or PVDF membranes. ,THMS15538-200EA,THMS25540-500EA,THMS15538-500EA,THMS25535-500EA,THMS15535-500EA,THMS15530-500EA,THMS15531-500EA Filter vials, SINGLE StEP™ eXtreme
Sep 01, 2019 · Herein, experimental data have been provided that shows that the Thomson Standard and eXtreme/FV® filter vials were as effective at removing K. pneumonia bacteria from bacteria-containing PBS samples as a gold-standard syringe filter-based sterilization system, such as the Olympus 0.22-μm PES filter membrane. Additionally, the absence of
membranesinPVDF,PTFE, PES,ornylon. Always confirm the compatibility of your vial, closure, and chemical combination prior to sample preparations. ... Bruker LC 51 ...
Recommended for samples containing less than 10% solid particulates, these standard filter vials are constructed using PTFE or PES for long-lasting durability.Available in a variety of filter media, syringeless filters allow you to process sample loads in a fraction of the time, providing a quick, economical, and environmentally conservative way to filter samples prior to HPLC analysis.