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Chemistry World
May 10, 2011
Manisha Lalloo |
Nanodiamond aerogel hammered out on anvil US researchers have transformed a common amorphous aerogel into a nanodiamond aerogel simply by applying pressure and heat in the presence of neon.   |
Chemistry World
September 13, 2006
Simon Hadlington |
Red Oxygen Structure Revealed An international team of researchers has cracked a conundrum that has baffled scientists for years: they have elucidated the crystalline structure of an enigmatic phase of solid oxygen that arises when the molecule is subjected to high pressure. |
Chemistry World
July 11, 2014
Jennifer Newton |
Crystal-to-crystal transformation Scientists in Canada have generated a new crystalline material that undergoes irreversible light-induced bending. |
Chemistry World
June 17, 2012
Harriet Brewerton |
Back to carbon black Scientists in Singapore have discovered the potential of a readily available material that could be used to replace expensive graphene analogues in a wide range of electrochemical processes. |
Chemistry World
September 18, 2012
Phillip Broadwith |
Caffeine crystals with an elastic bent Indian chemists have discovered a highly elastic but crystalline material made from caffeine. The crystals maintain their elasticity down to -100 C. |
Chemistry World
March 6, 2014
Emma Stoye |
Buckyballs form up into quasicrystal layer Flat, two-dimensional layers of molecules structured like quasicrystals -- crystals that show order without repeating patterns -- have been made for the first time by scientists in the UK and Japan. |
Chemistry World
April 29, 2009
James Urquhart |
Huge pores in zeolite molecular sieve Researchers in Spain and Sweden have synthesized and structurally determined a new kind of crystalline molecular sieve with extra large holes and chiral properties. |
Chemistry World
June 21, 2012
Simon Hadlington |
'Atomic traffic jam' sheds light on phase changes The prospect of a new generation of electronic computer memory devices based on metallic alloys that can switch between crystalline and amorphous phases has moved a step closer with two new pieces of research. |
Chemistry World
June 24, 2015
Victoria Richards |
Confronting the crystalline sponge A research group in the US has successfully simplified a crystallographic technique that scientists had struggled to get to grips with. |
Chemistry World
June 4, 2009
Phillip Broadwith |
Natural quasicrystals discovered Scientists have discovered a rare form of solid - a quasicrystal - in a rock sample from Russia's Koryak mountains. |
Chemistry World
April 30, 2015
Simon Hadlington |
Floppy polymer defies convention to form rigid framework Chemists in the US have turned received wisdom on its head by using floppy, linear polymers to construct a rigid, crystalline, three-dimensional metal -- organic framework. |
Technology Research News
August 25, 2004 |
Method Makes Stronger Steel Researchers have found a way to cast relatively large structures from a type of steel whose atomic structure is amorphous, like glass, rather than the usual orderly crystalline structure of metal. |
Chemistry World
June 15, 2006
Jon Evans |
Through a CO2 Glass Darkly European researchers may have found a new way to capture and store CO2, by transforming it into a solid, glass-like substance. |
Chemistry World
April 22, 2014
Stephen McCarthy |
Molecules mimic mesmerizing mathematics Computer modelling has shown for the first time how organic molecules could assemble into molecular quasicrystals, raising the possibility of new materials with exotic properties. |
Chemistry World
September 20, 2012
Jon Evans |
World's smallest ice cube created Ice crystals must contain at least 275 water molecules, say German chemists. This size limit has implications for any process that involves ice particles, from cloud formation to making the perfect gin and tonic. |
Chemistry World
July 6, 2015
Tim Wogan |
Novel compounds make light work of trapping carbon dioxide A new set of compounds that can be reversibly switched between crystalline and amorphous isomers by light has been developed by researchers in Italy. |
Chemistry World
November 16, 2010
Philip Ball |
Water takes forbidden form Researchers say that when water is confined between two flat plates just 8.5 Angstroms apart - room enough for just two molecular layers - it can adopt a quasicrystalline state which appears to have a 'forbidden' twelve-fold symmetry. |
Chemistry World
November 5, 2009
Lewis Brindley |
Playing with 'Russian-doll' fullerenes Chinese chemists have made 'Russian-doll'-style fullerenes, containing three distinct molecules trapped within one another. |
Chemistry World
September 2, 2013
Laura Howes |
New oxidation state of uranium discovered The new +2 oxidation state, sought for over 30 years, has been seen fleetingly in the gas phase but until now it has not been observed in molecular species in solution. |
Technology Research News
December 15, 2004 |
See-Through Circuits Speed up Researchers have moved transparent semiconductors forward with an indium gallium zinc oxide mixture that can be deposited on plastic, is transparent, and potentially performs one to three orders of magnitude better than today's plastic transistors. |
Chemistry World
April 25, 2014
Rachel Wood |
Decoding interstellar carbon The detection of molecules such as fullerenes -- molecules composed entirely of carbon, including the spherical C 60 -- has revealed a more complicated picture of carbon in space. |
Chemistry World
November 29, 2010
Simon Hadlington |
Mystery of diamond polishing solved? Mike Ashfold, an expert on the chemistry of diamond at the University of Bristol in the UK, says, 'Polishers have long recognised that some diamond surfaces polish more easily, and more successfully, than others. |
