Company:ThalesNano
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| Industry | Chemistry |
|---|---|
| Headquarters | Budapest, Hungary |
Key people | Ferenc Darvas, (President) |
| Website | www.thalesnano.com |
ThalesNano, Inc. is a company that produces products for chemists, mainly in the field of flow chemistry. Its headquarters are in Budapest, Hungary with representation in Europe, North America and Asia. ThalesNano was spun out of ComGenex, Inc in 2002 to commercialize ComGenex’s innovations in the areas of microfluidics, mesofluidics and nanotechnology.
ThalesNano's initial offering, the H-Cube continuous-flow hydrogenation reactor, won an R&D 100 Award in 2005,[1] and has since been adopted by 20 out of the 20 top pharmaceutical companies.[by whom?][2]
Since then, a series of modular components have been developed by the company that expand the possibilities provided by the H-Cube, as well as developing a newer version of the initial product (called the H-Cube Pro).
ThalesNano's flow chemistry equipment has received backing from numerous scientific publications.[3][4][5][6]
Notes and references
- ↑ "Laboratory Equipment - R & D". Archived from the original on 2008-12-02. https://web.archive.org/web/20081202071854/http://www.rdmag.com/ShowPR~PUBCODE~014~ACCT~1400000100~ISSUE~0509~RELTYPE~R100~PRODCODE~00000000~PRODLETT~AI.html. Retrieved 2008-12-19. R&D Magazine's Article
- ↑ [1] H-Cube adopted by the top 20 Pharma
- ↑ [2] Heterogeneous hydrogenation reactions using a continuous flow high pressure device, Desai, B. and Kappe, O.,J.Comb. Chem.; 2005; 7; 5; 641-643
- ↑ [3][|permanent dead link|dead link}}] Enantiomer selective acylation of racemic alcohols by lipases in continuous-flow bioreactors, Csajagi, Cs., Szatzker, G., Toke, E.R., Urge, L., Darvas, F., Poppe, L., Tetrahedron: Asymmetry, 2008, 19(2), 237-246
- ↑ [4] Construction and Validation of an Automated Flow Hydrogenation Instrument for Application in High-Throughput Organic Chemistry, Clapham, B., Wilson, N.S., Mischmerhuizen, M.J., Blanchard, D.P., Dingle, D.M., Nemcek, T.A., Pan, J.Y., Sauer, D.R., J. Comb. Chem., 2008, 10, 88-93
- ↑ [5][|permanent dead link|dead link}}] Automated Technology for Performing Flow-Chemistry at Elevated Temperature and Pressure, Kovacs, I., Jones, R., Niesz, K., Csajagi, Cs., Borcsek, B., Darvas, F., Urge, L., Journal of the Association for Laboratory Automation, 2007, 12 (5), 284-290
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