ThalesNano is specialized in developing and providing microscale flow instruments
for chemistry, by exploiting benefits of combining microfluidics, mesofluidics
and nanotechnology with flow...
Article - 23 Apr 2004
ComGenex Inc., a leading drug discovery service provider, has completed the initial phase of the integration of the first ever continuous flow, bench top hydrogenation unit to be used in multi mode...
Article - 2 Aug 2005
Nanomaterials and nanoparticles are being used in chemical synthesis, especially in the areas of catalysis, separations and remediation. The different types of nanomaterials and nanoparticles being...
News - 28 Jun 2013
Researchers from McGill University, RIKEN (The Institute of Physical and Chemical Research, Wako, Japan) and the Institute for Molecular Science (Okazaki, Japan) have discovered a way to make the...
News - 13 Mar 2012
A team of scientists from the School of Arts and Sciences and School of Engineering at Tufts University has found a new way to produce a selective hydrogenation catalyst through individual atoms....
News - 1 Oct 2008
the global leader in catalysis, will introduce the first two catalysts from
its new NanoSelectTM platform technology, NanoSelect LF 100 and NanoSelect LF
200, for use in...
News - 8 Jun 2007
ThalesNano Nanotechnology Inc., announced today that it has launched the latest of its Cube(TM) flow reactor series, H-Cube(R) Tutor which is now commercially available for educational...
News - 29 Jan 2016
When margarine is produced, several tons of unsaturated fatty acids are converted from vegetable oils using hydrogen. When looking for improved catalysts for such hydrogenation reactions, a...
News - 29 Jan 2008
In a significant step towards improving the design of future
catalysts and catalytic reactors, especially for microfluidic
“lab-on-a-chip” devices, researchers with the U.S.
News - 13 May 2014
The U.S. Department of Energy's Ames Laboratory has created a faster, cleaner biofuel refining technology that not only combines processes, it uses widely available materials to reduce...