| Random-access memory (2) |  |
| Video card (28) | |
| Random-access memory (2) | |
| Video card (28) | |
Unlike other water splitters that use precious-metal catalysts the electrodes in the Stanford device are made of inexpensive and abundant nickel
professor at Stanford university. his is the first time anyone has used non-precious metal catalysts to split water at a voltage that low.
But scientists have yet to develop an affordable active water splitter with catalysts capable of working at industrial scales. t s been a constant pursuit for decades to make low-cost electrocatalysts with high activity
Professor Shu Kobayashi's group at the Graduate school of Science has developed highly active immobilized catalysts (heterogeneous catalysts)
and demonstrated simple and highly efficient synthesis of (R)- and (S)- rolipram by an eight-step continuous flow reaction using multiple column reactors containing the immobilized catalysts.
Professor Kobayashi's application of flow chemistry techniques to the production of fine chemicals using heterogeneous catalysts has resulted in simple method to synthesize (R)
and without purification of products from catalysts. Professor Kobayashi says"This new technology can be applied to not only other gamma aminobutyric-acids acids and medicines but also various chemicals such as flavors, agricultural chemicals,
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015realizing carbon nanotube integrated circuits:
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th,
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015hybrid solar cell converts both light and heat from sun's rays into electricity (video) September 9th,
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 201 0
As well as offering new opportunities for industry, it will stimulate the search for even better basic catalysts
Catalysts come in multiple forms including: acids, solid metal nanoparticles, and large protein molecules or enzymes in human bodies.
Ninety percent of industrially important chemicals are made using catalysts. It is a major field in applied science;
This study opens a new way for designing metal-based catalysts with complexities, for example, geometry and composition, promoters and poisons, defects,
#Inexpensive new carbon-based catalysts can be tuned fine The new catalyst is based carbon, made of graphite with additional compounds bonded to the edges of two-dimensional sheets of graphene that make up the material.
Jose-Luis Olivares/MIT) Catalysts enhance the rate of a chemical reaction but are consumed not in the process.
By finding a way to make this material tunable in the same ways as molecular catalysts
In addition to their possible uses in fuel cells, such new catalysts could also be useful for enhancing chemical reactions,
"says Chris Chang, an expert in catalysts for carbon-neutral energy conversions.""In our system, nanowires harvest solar energy and deliver electrons to bacteria,
As well as offering new opportunities for industry, it will stimulate the search for even better basic catalysts
says Chris Chang, an expert in catalysts for carbon-neutral energy conversions. n our system, nanowires harvest solar energy and deliver electrons to bacteria,
or design novel catalysts for speeding up a variety of chemical reactions,"Gang said. Our work demonstrates the versatility of this approach
and one oxygen atom) can be polymerized to form polycarbonates in reactions that use special catalysts.
As a game species, the trophy status of a bighorn sheep ram is based largely on horn size.
Because the rams with the largest horns are often the ones targeted by hunters their removal from a population could then eliminate the genetic ability of animals in that population to grow large horns.
a chemical engineer with joint appointments at Berkeley Lab and UC Berkeley. he recyclable catalysts we developed are capable of converting sugarcane biomass into a new class of aviation fuel and lubricants with superior cold
and additives for gasoline as Gokhale explains. ith some minimal modifications to both the catalysts
but hold that there still important incentives to encourage investments. ee shown in this study that biorefineries can use inexpensive catalysts to produce a suite of hydrocarbon fuels and lubricants,
< Back - Next >
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011