The Polymer Chemistry Research Group at the University of Helsinki has succeeded in producing nano-sized metallic copper particles. When the size of particles is reduced to a nano-scale (one nanometre being one billionth...
The process to turn propane into industrially necessary propylene has been expensive and environmentally unfriendly. That was until scientists at U.S. Department of Energy's Argonne National Laboratory devised a gree...
Today, Genencor, a division of Danisco A/S announced the first transfer of BioIsoprene(TM) product to The Goodyear Tire & Rubber Co. BioIsoprene(TM) product is based on a revolutionary technology providing an alterna...
Huntsman Performance Products, a division of Huntsman Corporation (NYSE: HUN), today announced the commercial availability of its new specialty carbonate, JEFFSOL(R) Glycerine Carbonate.
Manufactured by Huntsman using...
Amphiphilic molecules, which have one water-friendly (hydrophilic) end and
one water-repellant (hydrophobic) end, spontaneously aggregate in aqueous solutions
to make superstructures like capsules or bilayers.
Flexsys America L.P., a subsidiary of Solutia Inc. (NYSE: SOA), today announced it is moving forward with its patent infringement case against Sinorgchem Co., Ltd. (Sinorgchem), Korea Kumho Petrochemical Co., Ltd. (KKPC)...
Cellulosic biofuels offer similar, if not lower, costs and very large reductions in greenhouse gas emissions compared to petroleum-derived fuels. That’s one of the key take-home messages from a series of expert pap...
As electronic circuits shrink from finely etched lines in silicon wafers to
nearly elusive proportions, researchers at the U.S. Department of Energy's
Lawrence Berkeley National Laboratory
(Berkeley Lab) and Columbia University are studying how electrons flow through
a molecular junction-a nanometer scale circuit element that contacts gold atoms
with a single molecule.
This hazardous location area rated fixture's housing is made with an aluminum
extrusion, making it lighter weight for easier installation.
Plantic
Technologies commissioned RMIT University, Melbourne, to undertake
a streamlined update of the Life Cycle Assessment (LCA) of Plantic biodegradable
plastic packaging system compared with alternative polymers. The updated LCA
reveals that every tonne of Plantic® sheet purchased in place of petrochemical
polymers will save up to 2.5 tonnes of carbon dioxide (the average annual emissions
of a compact car) and enough energy to power 2.5 average Australian homes.
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