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Chemistry World
August 17, 2010
Simon Hadlington |
A MOF you can scoff Chemists have accidentally discovered a new type of metal organic framework, or MOF, which is made from edible components.   |
Chemistry World
February 14, 2008
Simon Hadlington |
Molecular Sponges Mop up Carbon Dioxide US researchers have created a range of new chemical 'sponges' that could be used to soak up carbon dioxide from power stations. |
Chemistry World
February 8, 2006
Jon Evans |
To Boldly go Where no Chemist Has Gone Before Studying the interactions between different molecular fragments is taking researchers to the uncharted regions of chemical space. |
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
May 20, 2015
Katrina Kramer |
Taking the lead on drug discovery Researchers from the UK have developed a straightforward strategy for making compounds that have the potential to become clinical drugs. |
Chemistry World
September 24, 2009
Phillip Broadwith |
Carbon can't but tin can US chemists have discovered that distannynes - tin-based analogues of acetylenes - can react reversibly with ethene to make cyclic complexes. |
Chemistry World
November 30, 2007
Lewis Brindley |
Crystal Clear Structure Prediction One team of researchers has hit the jackpot by correctly predicting the crystal structures of four organic molecules in a competition organized by the University of Cambridge. |
Technology Research News
June 2, 2004 |
Buckyballs Gain Smaller Kin Researchers from Xiamen University and the Chinese Academy of Sciences have constructed a smaller version of the buckyball or C60 fullerene molecule, a spherical cage of carbon atoms. |
Chemistry World
November 18, 2014
Katrina Kramer |
Molecules: the elements and the architecture of everything Molecules is a serious attempt to explain the world of chemical compounds to the reader without assuming previous science knowledge. |
Chemistry World
June 25, 2013
Phillip Broadwith |
Porous materials break out of covalent cage Porous materials made from small molecular cages, rather than rigidly bonded frameworks, could be easier to process and have more tunable performance, say UK researchers. |
Chemistry World
June 25, 2012
Michael Gross |
Running Rings Around Molecular Wires New research could open up the possibility of using new carbon compounds as wires in molecular electronics. |
Chemistry World
February 21, 2007
Tom Westgate |
Complex Organic Molecules Teamed with Iodine Chemists have developed a method for constructing complex halogen-containing organic molecules from simple compounds in a single step. The discovery could pave the way for the synthesis of many potentially useful naturally occurring molecules. |
Chemistry World
November 24, 2006
Richard Van Noorden |
Cooking up Nano-Fusilli Here's a new twist on nanotubes: chemists have found a set of organic molecules that spontaneously assemble themselves into a helical spiral with a hollow core. |
Reactive Reports
Issue 63
David Bradley |
Chemists Go Round the Bend Chemists often think of molecular wires as "shape-persistent" rods with limited flexibility, but researchers have now shown that molecular wires can be bent into ring shapes. |
Technology Research News
January 12, 2005 |
Branchy Molecules Make Precise Pores Researchers have found a way to coax a material containing microscopic pores to assemble from two very different types of molecules. The material could be used as packaging material for microscopic electronics, to store gases, and to deliver tiny amounts of drugs to very specific places. |
Chemistry World
July 13, 2015
Philip Ball |
First snapshot of elusive intermediate supplies surprise A team near Zurich in Switzerland, has been able to take a single-molecule snapshot of an intermediate in a common class of organic reactions. |
Chemistry World
August 17, 2015
Jennifer Newton |
Molecular Sierpinski triangles get stability upgrade A team in China has constructed fractal triangles on the molecular scale and this time, they're much more robust. |
Chemistry World
August 11, 2015
Simon Hadlington |
AFM takes first step to unravel asphaltene make-up Researchers have taken a major step towards identifying the individual molecular components of asphaltene -- a highly complex, dense mixture of hydrocarbons contained in crude oil |
Chemistry World
November 28, 2013 |
Put the chemistry back in medicinal chemistry Today, synthetic skill is valued and appreciated much less in medicinal chemistry than in chemical development, though it is equally important for both. Much of the blame lies with the mismeasurement of productivity. |
Chemistry World
January 20, 2014
David Bradley |
Molecular librarians create druglike collections Finding biologically active small molecules with pharmaceutical potential is a bittersweet process. Now, a new approach to building libraries of diverse alkaloid-type structures has been developed by US chemists. |
Chemistry World
November 8, 2013
Rowan Frame |
Big data approach to solar cells After 150 million theoretical calculations, scientists at Harvard University in the US reveal results that could cut down the time and cost of experimental tests to find better organic electronic materials for solar cells. |
Chemistry World
July 3, 2014
Tami Spector |
Of atoms and aesthetics Molecular aesthetics means many things to a few people. For some it means tangible aspects of compounds; for others yet, the ways that chemists represent molecules. |
Chemistry World
March 12, 2015
Matthew Gunther |
Chemical building blocks produce a wellspring of organic molecules Scientists in the US have developed an automated platform to create small organic molecules from a set of simple of chemical building blocks. |
Chemistry World
May 31, 2009
Nina Notman |
The natural approach to winning at drug discovery High throughput drug screening is often described as a casino, with the odds stacked on the side of success as long as a big enough library is used. |
Chemistry World
November 3, 2008
Simon Hadlington |
Organic synthesis set for auto-pilot Peptides are routinely made by machines that couple together amino acid components. Could organic synthesis ever get this simple? |
Chemistry World
March 9, 2006
Katharine Sanderson |
Covalent Bonds Crack Under the Strain Chemists must consider engineering principles when designing molecules following news that tough carbon-to-carbon bonds break easily under mechanical strain. |
Chemistry World
July 19, 2010
Phillip Broadwith |
Designing porous patterns Belgian chemists are finally getting to grips with how to control the way molecules arrange themselves at the solid-liquid interface. |
Bio-IT World
August 18, 2004
Kevin Davies |
In Praise of Chemical Diversity How to build better small-molecule libraries. |
Chemistry World
May 29, 2015
Derek Lowe |
Magic molecule modifiers The synthesis of a new organic molecule can be approached in several ways. |
Technology Research News
March 9, 2005 |
Nanotubes Boost Molecular Devices Researchers have constructed an extremely small transistor from a pair of single-walled carbon nanotubes and organic molecules. The tiny transistor could eventually be used in ultra-low-power electronics. |
Chemistry World
January 17, 2007
Richard Van Noorden |
Molecular Magnets of Mystery Researchers have discovered a new class of molecular magnets which work above room temperature. But why the magnets work, and what their structures are, remains a perplexing mystery. |
Technology Research News
August 13, 2003 |
Molecule makes ring rotor Researchers from the University of Edinburgh in Scotland have interlocked large, ring-shaped molecules to make a molecular rotor that moves in only one direction. The molecule could eventually be used as a nanoscale motor or winch. |
Chemistry World
January 24, 2010
Andy Extance |
Boron cluster forms unique ring system Clusters of nineteen boron atoms gather together in a ring structure unlike any other seen, with two planar -bonded aromatic systems nestled inside one another. |
Chemistry World
March 9, 2007
Michael Gross |
Nanowires go Round the Bend Chemists have bent an apparently linear molecular wire into a closed circle, creating a conducting ring just 3 nanometers across. |
Chemistry World
May 4, 2015
Matthew Gunther |
Molecular shuttle slides into the solid state Scientists in Canada have for the first time incorporated a 'molecular shuttle' into a metal -- organic framework, raising the possibility of future solid-state nanotechnologies based on interlocking molecules. |
Chemistry World
May 7, 2008
Lewis Brindley |
Super-sized molecular sponges boost carbon capture Super-sized molecular sponges that trap and store carbon dioxide have been unveiled by chemists in the US. |
Reactive Reports
May 2007
David Bradley |
Meeting of Molecular Movie Stars New footage confirms Linus Pauling's theory of chemical bonding proposed half a century ago, and could help explain molecular recognition processes important throughout supramolecular chemistry and molecular biology. |
Chemistry World
September 10, 2014
Andy Extance |
'Assembly line' sculpts carbon chains UK chemists have devised a precise process for building carbon chains a link at a time that packs in more side groups than biologically-derived molecules can. |
Chemistry World
November 15, 2012
Harriet Gould |
Is organic really organic? John Emsley's Islington Green: A Book of Revelation, should serve as an educational gem for the young, inexperienced chemist, as well as a useful tool to aid anyone's debate as to whether organic is best. |
Chemistry World
September 28, 2012
Helen Potter |
Molecular fossils: new compounds from 4900-year-old wood If you dug up a wooden artifact, how could you tell what type of tree it came from? French chemists have identified unique molecules from an ancient piece of oak that could hold the key. |
Chemistry World
March 10, 2011
Kate McAlpine |
Aerosol data from BP spill Analysis of atmospheric data suggests that emissions of intermediate volatile organic compounds and semi-volatile organic compounds were low compared with those of volatile organic compounds. |
Reactive Reports
Issue 54
David Bradley |
Metals Take on Carbon's Bonding Characteristics A rethink about chemical bonding might be in the cards thanks to research that shows that the metal indium forms bonds in a manner not dissimilar to organic carbon atoms. |
Chemistry World
June 9, 2009
Simon Hadlington |
Super sponges soak up gas Researchers in the US have shown that a recently discovered class of compound based on light elements can store gas at least as efficiently as the most promising metal organic framework candidates. |
Chemistry World
June 22, 2010
Andy Extance |
Powering up organic solar cells Organic molecules combining aromatic, lipophilic and hydrophilic segments can organise themselves into structures with five times the photoconductivity of structures like those typically adopted by aromatic groups alone. |
Chemistry World
July 2007
Dylan Stiles |
Opinion: Bench Monkey Synthesizing molecules that force atoms into bizarre contortionist acts is the only way to learn. |
Chemistry World
March 10, 2009
Alexander Hellemans |
Making pentagonal ice An international group of researchers have discovered that pentagonal structures of ice can be formed on copper surfaces consisting of Cu (110) substrates. |
Chemistry World
August 1, 2010
Mike Brown |
Snapshots of mystery molecular structures Researchers have used atomic force microscopy to produce clear molecular images that can help determine the correct atomic structure of unknown organic molecules. |
Chemistry World
September 19, 2010
Simon Hadlington |
One dimensional carbon chains get longer Researchers in Canada have synthesised the longest polyyne to date - a linear chain of carbon atoms. |
Chemistry World
March 3, 2010
Jon Cartwright |
Hydrocarbon turns superconductor Researchers in Japan have created the first superconducting material based on a molecule of carbon and hydrogen atoms. |
Chemistry World
November 20, 2012
James Mitchell Crow |
'Molecular trapdoor' opens only for CO 2 A family of nanoporous materials well known for their gas separation properties can sort molecules with much more sophistication than previously thought. |
