Thirteen companies have been shortlisted for the 2009 ICIS Chemical Business Innovation Awards, lead sponsored by Dow Corning.
Winners in each category and an overall winner will be announced in the October 19 issue ...
Recent work at the Department of Energy's SLAC National Accelerator Laboratory and several universities in Sweden and Japan, however, is shedding new light on water's molecular idiosyncrasies, offering insight into its strange bulk properties.
Even in a rapidly growing market like India, growth is not always a given. Near the end of 2006, the DuPont Fluorochemicals business was impacted when the only Fluorochemicals distributor in India decided to leave DuPont to join a competitor.
iSmithers Rapra Publishing has announced the release of Update on Degradation and Stabilisation of Aromatic Polyesters.
This book provides a comprehensive survey of the degradation and stabilisation processes specific...
Daimer Industries, a major supplier and worldwide exporter of commercial cleaning products and green chemicals, announced the availability of its top-selling line of Eco-Green, eco-friendly formulations to chemical resel...
WACKER, the Munich-based chemical company, will be showcasing an innovative silicone antifoam agent for powder detergents at the 56th SEPAWA Congress in Würzburg, Germany, from October 14 to 16, 2009. Marketed as SILFOAM® SP 150, this white, powder additive efficiently regulates foaming within a very broad temperature range. It also exhibits excellent flow and processing properties, combined with a high bulk density.
WACKER, the Munich-based chemical company, has successfully completed the expansion and relocation of its technical center and offices in Dubai. The new facility serves as a development and testing lab for construction-chemistry applications and helps tap the region’s fast-growing construction industry.
A team of researchers, led by chemical engineering and materials science professor Michael Tsapatsis in the University of Minnesota's Institute of Technology, have developed a more energy-efficient method of chemical...
Our cells are controlled by billions of molecular "switches" and chemists at UC Santa Barbara have developed a theory that explains how these molecules work. Their findings may significantly help efforts to build biologically based sensors for the detection of chemicals ranging from drugs to explosives to disease markers.
Now, scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory and Stony Brook University have devised a way to encapsulate bacteria in a synthetic polymer hydrogel. These new, stable, bio-hybrid materials maintain the microbes' ability to exchange nutrients and metabolic products with their environment, and could find widespread applications, for example, as biosensors, catalysts, drug-delivery systems, or in wastewater treatment.
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