Chemical state thought to be unobservable characterized
For the first time, MIT chemists have measured the energy of the transition state of a chemical reaction—a fleeting, unstable state that is a reaction's point of no return.
For the first time, MIT chemists have measured the energy of the transition state of a chemical reaction—a fleeting, unstable state that is a reaction's point of no return.
Materials Science
Dec 10, 2015
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A joint project of scientists from Russia has investigated chemical applications of calcium carbide. The project advances the idea of diverse acetylene chemistry on the basis of carbide technology. Using the proposed approach, ...
Materials Science
Aug 13, 2015
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Professor Stephan Irle of the Institute of Transformative Bio-Molecules (WPI-ITbM) at Nagoya University and co-workers at Kyoto University, Oak Ridge National Lab (ORNL), and Chinese research institutions have revealed through ...
Nanomaterials
Apr 1, 2014
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Calcium carbide (CaC2) is a simple molecule used worldwide to produce industrial-scale quantities of the fuel known as acetylene gas (see image). Chemists have found ways to generate CaC2 from sustainable biomass resources, ...
Materials Science
Nov 20, 2013
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Researchers from North Carolina State University used airbrushing techniques to grow vertically aligned carbon nanofibers on several different metal substrates, opening the door for incorporating these nanofibers into gene ...
Nanomaterials
Sep 11, 2013
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The iron-sulfur protein IspH plays a central role in the terpene metabolism of several pathogens. The mechanism of the reaction provides an approach for developing new antibiotics, particularly against malaria and tuberculosis. ...
Biochemistry
Oct 9, 2012
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(Phys.org)—Research that sheds new light on the microscopic chemical physics driving one of the most important reaction sequences in atmospheric chemistry is published in Science today by Dr David Glowacki from the University ...
General Physics
Sep 3, 2012
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(Phys.org) -- Chemists don't like precious metals at least not when they need the expensive materials as catalysts to accelerate reactions or guide them in a particular direction. And this is often the case, as in ...
Materials Science
Jun 20, 2012
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A team of researchers at Tufts University's School of Arts and Sciences and School of Engineering have discovered that individual atoms can catalyze industrially important chemical reactions such as the hydrogenation of acetylene, ...
Materials Science
Mar 8, 2012
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Detecting specific gases in the air is possible using a number of different existing technologies, but typically all of these suffer from one or more drawbacks including high energy cost, large size, slow detection speed, ...
Materials Science
Sep 4, 2011
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