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Chemistry World
January 8, 2014
Caryl Richards |
First route to diphosphorus tetroxide Researchers from the University of Georgia, US, are the first to successfully synthesize stable diphosphorus tetroxide, the long sought-after phosphorus analogue of N 2O 4. What's more they performed the feat at room temperature.   |
Chemistry World
August 21, 2008
Fred Campbell |
Double bonding with silicon In a landmark for silicon chemistry, US researchers have reported the first stable silicon (0) compound to contain a silicon-silicon double bond. |
Chemistry World
April 11, 2010
Simon Hadlington |
Phosphorus fragments trapped Researchers in the US and Germany have shown how a rare and highly reactive form of phosphorus can be captured and crystallised, making it stable even at room temperature. |
Chemistry World
March 5, 2007
Richard Van Noorden |
Desperately Seeking Silicon Silicon has been blamed for the faulty fuel that caused thousands of UK cars to break down last week. How can a silvery-gray semi-metal popularly known to be used in computer chips have found its way into gasoline? |
Chemistry World
January 20, 2010
James Urquhart |
Disilicate synthesis success A compound containing a stable silicon-silicon bond between two negatively charged pentacoordinated silicon atoms - silicates - has been synthesized and isolated for the first time by Japanese researchers. |
Chemistry World
October 6, 2011
Manisha Lalloo |
Oxygen Isotopes Help to Probe Water's Structure Scientists have used isotopic substitution of oxygen to take a closer look at the molecular structure of water. |
Chemistry World
January 29, 2010
Phillip Broadwith |
Silicon goes aromatic Chemists in the UK have constructed a structural analogue of benzene made from silicon atoms. The molecule is not flat like benzene, but it reveals a new type of aromatic stabilisation. |
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. |
Technology Research News
October 20, 2004 |
Molecules positioned on silicon Dubbed multi-step feedback control lithography, this new fabrication process could eventually be used to construct prototype molecular electronic devices for future technologies in areas like consumer electronics and biomedical diagnostics. |
Reactive Reports
December 2006
David Bradley |
Blood, Light, and Water Two molecules that occur naturally in blood have been engineered by scientists to use sunlight to split water into hydrogen and oxygen. |
Chemistry World
September 29, 2015 |
Navigating chemical space How big is chemistry? I don't mean how important is it, or how many people do it, but rather, how many molecules are there that we could make? |
Chemistry World
March 7, 2007
Lionel Milgrom |
Diatoms Transformed Into Silicon Sensors Materials scientists have found a simple method of converting frustules - the intricate silica-based skeletons of common single celled photosynthetic organisms called diatoms - into pure silicon structures with many applications. |
Chemistry World
June 25, 2014
Tim Wogan |
Unusual 2D silica allotrope predicted A graphene-like allotrope of silica with unusual physical and electrical properties has been predicted by theoretical chemists in Turkey. |
Geotimes
November 2003
Lisa Corathers |
Mineral Resource of the Month: Silicon The Silicon Commodity Specialist for the U.S. Geological Survey has compiled this information about silicon, an extremely versatile mineral with many applications in the manufacture of iron and steel, aluminum alloys, chemicals, and electronic microchips. |
Chemistry World
February 27, 2014
Simon Hadlington |
Quantum tunnelling sparks chemistry on cold surfaces Chemistry in deep space could be more diverse than thought after the discovery that larger atoms can quantum tunnel. |
Chemistry World
October 1, 2007
Lewis Brindley |
Semiconductor Splits Water with Sunlight Scientists in Germany have developed a promising new catalyst that splits water using sunlight -- and stores the hydrogen and oxygen produced. |
IEEE Spectrum
May 2011
Wager & Hoffman |
Thin, Fast, and Flexible Semiconductors Amorphous oxide semiconductors promise to make flat-panel displays faster and sharper than today's silicon standby. |
Chemistry World
December 12, 2007
Simon Hadlington |
Iron Oxide Succumbs to the Gentle Touch Chemists in Japan and France have produced a new iron oxide with a sheet-like structure that could be used in fuel cells and sensors. |
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
June 7, 2012
Simon Hadlington |
Rethinking redox chemistry Metal oxide redox chemistry may be due a big re-think following new research by US scientists. It seems that it is not solely electrons that are being shunted about. In many, possibly most, cases a proton also comes along for the ride. |
Chemistry World
July 29, 2011
Simon Hadlington |
Archetypal Lewis Acid Borane Turned Into a Base Chemists in the US and Germany have achieved the remarkable feat of transforming a borane, an archetypal electron-accepting Lewis acid, into an electron-donating Lewis base. |
Chemistry World
March 2012 |
Column: In the pipeline Drug discovery requires experimentation, says Derek Lowe. But chemists can be reluctant to stray from the elements they know and love |
Technology Research News
January 12, 2005 |
Silicon Surfaces Speed Circuits Researchers have devised a way to use the chemistry of silicon surfaces to make smaller chip features. |
Chemistry World
May 13, 2014
Tim Wogan |
Chemistry calculations reveal Earth's inner core Theoretical calculations have confirmed that the Earth's core contains a significant proportion of oxygen. |
Wired
July 2000
Rick Overton |
Molecular Electronics Will Change Everything The Next Big Thing is very, very small. Picture trillions of transistors, processors so fast their speed is measured in terahertz, infinite capacity, zero cost. It's the dawn of a new technological revolution - and the death of silicon. Can you say Thiophene Ethynylene Valley? |
Chemistry World
October 2, 2014
Tim Wogan |
Photosynthesis-free route to oxygen gives early Earth atmosphere clues A direct mechanism for producing oxygen from carbon dioxide using far ultraviolet radiation has been experimentally demonstrated by researchers in the US, confirming a 14-year-old theoretical prediction. |
Chemistry World
July 22, 2011
Kate McAlpine |
Self-assembling DNA structures carve out a niche Researchers have used DNA nanostructures to create raised ridges and tiny trenches in silicon dioxide using an etching technique. |
Chemistry World
November 18, 2014
Tim Wogan |
New silicon allotrope could revolutionize solar cells A new, direct band gap allotrope of silicon has been synthesized by researchers in the US. It could potentially revolutionize solar cells and light-emitting devices. |
Reactive Reports
Issue 41
David Bradley |
Implantable Chips This pioneering work in making single-crystal silicon bioactive is important to biomedical microdevices such as MEMS and biosensors. |
Chemistry World
March 24, 2014
Tim Wogan |
Carbenes beat thiols for robust monolayers Using N-heterocyclic carbenes rather than thiols to bond self-assembled monolayers to gold surfaces makes them much more robust, say researchers in Canada. |
Chemistry World
September 7, 2012
Simon Cotton |
Not Just Microchips Sand and Silicon: Science That Changed the World by Denis McWhan sets out to show how the scientific discoveries of the past century are inextricably interlinked with SiO 2 and the chemicals derived from it. |
Technology Research News
January 14, 2004 |
Hardy molecule makes memory In what may mark an advance in the quest for ever-higher data-storage density, researchers from the University of California have shown that a type of porphyrin molecule holds up under temperatures as high as 400 degrees Celsius and after being written to and read from trillions of times. |
Technology Research News
March 9, 2005 |
Silicon Chip Laser Goes Continuous Useful lasers made from silicon would make it possible to move data between and within computer chips using light rather than electricity. This would make for faster chips that could be more tightly integrated with optical communications equipment. |
Chemistry World
October 2007
Philip Ball |
The Crucible Feel free to make photovoltaics better. But don't forget they have to be cheaper, too. |
Chemistry World
September 27, 2012
Andy Extance |
Silicon sliver implants melt away A US-led team has made the first completely water-soluble silicon-based circuits and demonstrated simple medical implant devices that wouldn't need later removal. |
