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Chemistry World
May 28, 2012
Hayley Birch |
Buckyballs grow by gobbling up carbon New insights into the formation of some of chemistry's most iconic molecules - the fullerenes - suggest they grow by 'eating' carbon atoms.   |
Chemistry World
May 30, 2012
Jon Cartwright |
Tiny buckyball grown around metal atom An international team of researchers has observed the smallest fullerene to form spontaneously to date using metal atoms for stabilization. |
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. |
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
July 14, 2014
Tim Wogan |
First experimental evidence of a boron fullerene The first experimental evidence for a boron fullerene has been produced by researchers in the US and China. |
Chemistry World
December 7, 2009
Simon Hadlington |
Metal atoms in carbon nanotubes caught on film An international team of researchers has filmed individual metal atoms as they move around and react within the confines of a carbon nanotube. |
Chemistry World
February 6, 2012
David Bradley |
10 out of 10 for boron's coordinated effort A team in the US has created a boron compound that has the highest coordination number of any planar species, squeezing 10 spoke-like bonds from a central metal hub to 10 boron atoms equally spaced around a nanoscopic wheel. |
Chemistry World
March 21, 2013
Neil Withers |
Harry Kroto: From light years to nanometers -- and back My emphasis in the Pittcon plenary lecture is that the discovery of C 60 started off from an interest in massive clouds of gas in interstellar space. You go from these huge objects into the nanoscale world and back again out into space. |
Chemistry World
October 5, 2006
Mark Peplow |
Boron Shows Its Negative Side A molecule that hosts a negatively-charged boron atom could prove to be an exciting addition to the chemist's toolbox, according to researchers who have isolated the anion as its lithium salt. |
Chemistry World
August 13, 2008
Fred Campbell |
Buckyball synthesis under control Researchers in Spain have developed a highly efficient, surface-catalysed route to fullerenes. |
Chemistry World
November 7, 2012
Simon Hadlington |
World's first all-carbon solar cell Researchers in the US and China have built a photovoltaic cell made entirely from carbon. The electrodes and light-active layers are made from a combination of three carbon allotropes -- nanotubes, fullerenes and graphene. |
Reactive Reports
Issue 34
David Bradley |
Sandwiched nanotubes Ferrocene-modified carbon nanotubes can separate charge |
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
May 9, 2010
Hayley Birch |
Filming fullerene formation Real-time, atomic level microscopy has revealed that the round, cage-like structures of fullerenes can form directly from sheets containing large numbers of carbon atoms. |
Chemistry World
February 21, 2010
Lewis Brindley |
Fullerenes break the rules Chinese researchers have made an exotic new family of fullerenes that contain three pentagons fused sequentially in their structure. |
Technology Research News
August 13, 2003 |
Carbon wires expand nano toolkit Scientists looking for building blocks to form electronics and machines that are not much bigger than molecules have gained a new tool. |
Technology Research News
October 8, 2003 |
Nanotubes harvest electrons Researchers from the University of Bologna and the University of Trieste in Italy, and the University of Notre Dame have found a way to alter carbon nanotubes so that they efficiently separate electrical charge. The method could lead to more efficient solar cells. |
Chemistry World
July 7, 2015
Matthew Gunther |
Football-sized fullerene gets an electric response A football-sized resonator that can simulate the properties of a carbon fullerene has been created by scientists in Germany. |
Chemistry World
February 11, 2015
Jon Evans |
Calculations predict pentagonal graphene Scientists in China have proposed the existence of a novel 2D allotrope of carbon made up of pentagons, which they have dubbed 'penta-graphene'. |
Chemistry World
January 28, 2009
Manisha Lalloo |
Ultra-pure boron structure discovered Scientists have characterised a new form of elemental boron - a notoriously hard element to synthesise in a pure form - and found that ionic bonding helps hold the structure together. |
Technology Research News
December 1, 2004
Eric Smalley |
For Pure Nanotubes Add Water Washing away impurities with water turns out to be as good for growing carbon nanotubes as it is for keeping a clean house. |
Chemistry World
July 7, 2014
Jennifer Newton |
Buckyball boron Systematic structure-searching calculations performed by scientists in China have put forward an all-boron analogue of fullerene: B 38. |
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
June 14, 2012
David Bradley |
Tripling up on boron bonds Carbon and nitrogen are well known for their triple bonds, but making stable compounds with a triple bond between two boron atoms hadn't been achieved despite the computational possibilities. Until now. |
Chemistry World
November 2010 |
Carbyne and other myths about carbon Harry Kroto gets hot under the collar on the subject of so-called carbyne |
Chemistry World
August 14, 2012
Andy Extance |
Carbon clusters score lucky seven US and Chinese chemists say that they've calculated the structure of a stable carbon dication that would have a higher coordination number than any yet seen experimentally. |
Chemistry World
February 26, 2007
Lionel Milgrom |
Nanotubes Sprout Fullerene Buds A new carbon-based hybrid material is set to make an impact on the microelectronics industry. Christened 'nanobuds', the material consists of single-walled carbon nanotubes with football-shaped fullerenes stuck on their outer surfaces. |
Technology Research News
August 11, 2004 |
Single gold atoms altered The gold atom, positioned on an ultrathin film of sodium chloride, remained stable during the operation, despite the change in charge. |
Chemistry World
January 25, 2012
Kate McAlpine |
Conjuring graphene oxide from thin air Researchers on the hunt for a better way to recycle carbon dioxide have turned it into graphene oxide. |
Chemistry World
October 3, 2013
Jon Cartwright |
Graphene targets water treatment and carbon capture Researchers in South Korea have demonstrated that a membrane based on graphene and graphene oxide makes an effective filter to separate carbon dioxide from nitrogen gas. |
Chemistry World
January 19, 2007
Richard Van Noorden |
Happy Families for Aluminium Chemists have discovered that aluminium - a notoriously anti-social element compared with its sister boron - may in fact form an unexpected family of hydride clusters. |
Chemistry World
July 8, 2010
Phillip Broadwith |
Flattening carbon UK researchers have managed to synthesise a molecule with an almost planar four-coordinate carbon atom bonded to two lithium atoms and bulky organic ligands. |
Reactive Reports
David Bradley |
Subjective Suboxide Carbon monoxide and carbon dioxide are probably the best known molecules containing just carbon and oxygen, but they do form others, such as carbon suboxide (C3O2), which is one of the most stable. |
Chemistry World
November 12, 2015
Tim Wogan |
Flat boron first looks promising for nano-electronics The super hard material, which was formed by two-stage chemical vapor deposition, has unusual properties for a two-dimensional material that could potentially make it very useful in nano-electronics. |
Chemistry World
October 15, 2015
Victoria Richards |
C 50 breaks all the rules European scientists have found that the rules of aromaticity need to be rewritten if they are to ever discover a superaromatic fullerene. |
Science News
September 16, 2000
Ivars Peterson |
Plato's Molecule The Pythagoreans believed that the dodecahedron formed the "timbers" on which the spherical bulk of the heavens was built. This Platonic solid has been an object of fascination for millennia. Now, the dodecahedron is in the news again... |
Chemistry World
December 15, 2010
Hayley Birch |
New technique probes electron properties of individual atoms A new, low voltage electron microscopy technique allows scientists to discriminate not just between atoms of different elements but between atoms of the same element in different electronic states. |
Chemistry World
December 21, 2010
Laura Howes |
Cutting edge chemistry in 2010 With the help of an expert panel of journal editors, Chemistry World reviews the ground breaking research and important trends in the year's chemical science papers. |
Reactive Reports
Issue 63
David Bradley |
Natural Copy Cat While plants convert carbon dioxide into sugar and oxygen, chemists are having a more difficult time finding an efficient method for converting carbon dioxide into useful fuels. |
Chemistry World
December 10, 2014
Emma Stoye |
Cutting edge chemistry in 2014 Highlights from last year's ground breaking chemical sciences research. |
Technology Research News
February 25, 2004 |
Nanotube mix makes liquid crystal Carbon nanotubes are rolled-up sheets of carbon atoms that can be as narrow as 0.4 nanometers, or the span of four hydrogen atoms. They have useful electrical and mechanical properties and are a leading player in nanotechnology. |
Chemistry World
July 29, 2013
Jennifer Newton |
240 boron atoms in a single molecular species The unique supramolecular cuboctahedron contains 240 boron atoms and was synthesized by Chad Mirkin and colleagues at Northwestern University in Evanston, Illinois, via coordination-driven assembly. |
Chemistry World
July 27, 2015
Anisha Ratan |
Boroles get a stability boost Scientists from Germany have reported a breakthrough in borole stability, using bulky fluoromesityl groups, which could help these anti-aromatic molecules realize their potential in optoelectronic devices. |
Chemistry World
July 22, 2010
Andy Extance |
Buckyballs give clue to space mystery The C60 molecule Buckminsterfullerene has been clearly identified in space for the first time, providing a possible solution to a 90-year old extraterrestrial enigma. |
Chemistry World
December 6, 2007
Lewis Brindley |
Chemists Make Fullerene Necklace Spanish scientists have strung fullerene buckyballs together to produce a polymer with unique electronic properties. The creation of these polymers has demonstrated a new approach to designing novel materials. |
Chemistry World
February 26, 2013
Holly Sheahan |
Capturing the potential of carbon dioxide A team of researchers from the University of Bath have opened up the idea of using carbon dioxide as a useful potential feedstock; a useful chemical resource rather than a troublesome waste product. |
Technology Research News
December 1, 2004 |
Short Nanotubes Carry Big Currents Researchers have developed a simple way to fabricate carbon nanotube devices whose length is as small as ten nanometers, and have shown that electricity can pass through the nanotubes very efficiently. |
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 |
Chemistry World
January 29, 2015
Jennifer Newton |
Graphene looks to doped superbenzene to overcome electronic hurdles Building graphene from carefully-modified superbenzene segments has been proposed as a way to help graphene overcome a major stumbling block limiting its application in electronic devices. |
Reactive Reports
May 2007
David Bradley |
The Long and the Short of It A new composite material that acts as a catalyst to speed up chemical reactions has been developed to create arrays of the world's longest carbon nanotubes. |
