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Chemistry World August 27, 2009 Nina Notman	Molecules in close-up A tuning-fork-like device than measures atomic forces is able to image every single atom in a molecule, according to its Swiss inventors.
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 May 27, 2014 Simon Hadlington	Unusual H-bond patterns revealed in single molecule image Researchers in the US have used a scanning tunnelling microscope to produce the latest images of structure and bonding in a single molecule, by sensing the molecule's local potential energy landscape.
Chemistry World February 28, 2012 Nina Notman	Observing Charge Distribution in Molecules The distribution of charge across a single molecule has been imaged for the first time by Swiss scientists. It is hoped that this work may eventually lead to electronic devices consisting of organic molecules.
Chemistry World November 10, 2014 Andy Extance	Hydrogen bond pictures come under close scrutiny Scientists have cast doubt on whether striking atomic force microscopy images previously thought to show hydrogen bonds are real or merely an artefact.
Chemistry World September 26, 2013 Akshat Rathi	First pictures of hydrogen bonds unveiled Researchers in China report the first visualization of a hydrogen bond using atomic force microscopy.
Reactive Reports November 2005 David Bradley	Water, Water How a strand of water just a few molecules thick could provide nanoscale clues about water's intriguing properties and why water is the dread enemy of atomic force microscopy.
Chemistry World September 13, 2012 Philip Ball	Bright idea to probe bond order The order of multiple bonds can be uncovered using atomic force microscopy, according to Leo Gross of IBM Research in Zurich and his co-workers.
Chemistry World February 21, 2008 Simon Hadlington	Taking the Measure of Atomic Friction Scientists in the US and Germany have successfully used an atomic force microscope to determine exactly how much effort is needed to drag a single atom of cobalt across the surface of different metals.
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 September 3, 2010 Lewis Brindley	First steps of water condensation observed The US team conducting the research found that the first two layers - each two molecules thick - form as ice, with subsequent layers forming into liquid droplets.
Chemistry World February 28, 2007 Simon Hadlington	Individual Atoms' Chemical ID Revealed Researchers have demonstrated for the first time that atomic force microscopy can be used to reveal the chemical identity of individual atoms on a surface at room temperature.
Chemistry World October 25, 2007 Jonathan Edwards	Nanotube Gives Ultimate Force Measurement US researchers have pushed chemical force microscopy (CFM) to its ultimate limit by measuring the interaction of a single functional group with a carbon nanotube.
Chemistry World August 27, 2015 Jon Cartwright	AFM pictures show bond polarity Researchers in Germany and the Czech Republic have improved the clarity of atomic force microscopy to probe the distribution of charges within atoms and molecules.
Chemistry World July 4, 2010 Hayley Birch	DNA sticks at flick of switch A new technique that sticks individual DNA molecules to a gold surface works at the flick of an electrochemical switch.
Chemistry World June 5, 2013 Simon Hadlington	Raman scattering reaches sub-nm resolution Researchers have achieved the highest resolution yet with Raman spectroscopy, allowing the chemical mapping of molecules to a resolution of less than 1nm. The technique could allow unprecedented chemical identification of single molecules.
Chemistry World August 21, 2012 James Mitchell Crow	Watching single nanoparticles work By shining laser light on the modified tip of an atomic force microscope), researchers in Germany and the Netherlands have been able to watch a catalytic reaction in real time, zoomed right in to the nanoscale.
Chemistry World June 10, 2010 Carol Stainer	Hot tip makes light work of graphene circuit US researchers have 'drawn' tiny conductive lines on an insulating graphene oxide surface using the heated tip of an atomic force microscope that changes the local chemistry of the surface.
Chemistry World April 24, 2007 Simon Hadlington	Researchers 'See' Catalyst Molecules at Work Researchers have for the first time 'watched' in real time single molecules of catalyst participating in a reaction at a solid-liquid interface.
Chemistry World February 13, 2015 Andy Extance	X-ray laser snaps first bond-forming transition state Using data from x-ray lasers scientists have reconstructed the formation of the carbon monoxide oxidation transition state.
Chemistry World November 7, 2012 Ian Le Guillou	Coral animal chemical structures solved A combination of atomic force microscopy and computational techniques have been used to solve the unusual structures of two natural products from the Arctic coral-like animal, Thuiaria breitfussi.
Chemistry World September 18, 2007 Simon Hadlington	Researchers See Electrons in a Spin Scientists in the US have successfully measured the spin polarisation state of single atoms adsorbed to a surface, bringing the prospect of quantum computing and spin-based electronics (spintronics) a step closer.
Chemistry World June 4, 2013 Emily Skinner	Homogeneous catalysis for nanoscale surface designs Scientists in France have combined homogeneous catalysis and atomic force microscopy to create intricate surface patterns.
Chemistry World August 13, 2010 James Urquhart	Zooming in on intermolecular bonds German researchers have captured clear images of intermolecular bonds for the first time using a modified form of scanning tunnelling microscopy.
Chemistry World July 5, 2011 Mike Brown	Metallic Pick and Mix with Complexes Scientists in Germany have plucked a metal ion from the middle of a phthalocyanine molecule on a silver surface. The simple method of removal, which employs a scanning tunnelling microscope, could be used to make cheaper molecular storage devices.
Chemistry World February 28, 2010 Jon Cartwright	Reactions on DNA origami watched with AFM Chemists in Denmark have for the first time imaged chemical reactions on a DNA origami scaffold so that they can precisely attach single molecules, involving atomic force microscopy.
Chemistry World March 14, 2013 Simon Hadlington	Elusive desorption precursor spied by x-ray laser Scientists have for the first time directly observed the elusive transient precursor state of a molecule just before it desorbs from a solid surface and enters the gas phase.
Chemistry World May 12, 2011 Jon Cartwright	'Chemical soldering' heralds single molecule electronics Scientists in Japan and Switzerland have demonstrated how to wire up single molecules with conductive nanowires.
The Motley Fool March 17, 2005 Dan Bloom	Ready for Some Carbon Nanotubing? Carbon nanotubes are going to show up in all sorts of high tech devices. Be ready for them.
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.
Chemistry World July 30, 2007 Lewis Brindley	AFM Tip Feels Nano-Surfaces Scientists in the US have developed an artificial fingertip that boosts the resolution of atomic force microscopy, a technique that opens a window onto the nanoscale world.
Chemistry World July 31, 2008	Nanostructures Made Easy Scotland-based chemists have invented a new way to build nanoscale arrays of molecules over a large surface area: a technique that may be key to making nanostructures in sophisticated sensors, catalysts, and tiny computer parts.
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 October 31, 2007 Lewis Brindley	Filming the Nanoworld Scientists in the US have upgraded the circuitry on a popular microscopy technique to boost the speed of imaging by about 100 times
Chemistry World April 10, 2014 Tim Wogan	Nanocrystalline copper turns CO into fuel A new type of nanocrystalline copper electrode that catalyses the electrochemical conversion of carbon monoxide to alcohols has been demonstrated by researchers in the US.
Chemistry World December 13, 2011 Jon Cartwright	Scientists unveil tiniest switch Researchers in Germany claim to have created the world's smallest molecular switch, relying on the movement of just a single proton.
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 13, 2008 Hayley Birch	Reactions Studied by Stop Motion Japanese and Israeli scientists have developed a technique that can track whole-molecule changes that occur during extremely rapid reactions.
Chemistry World July 29, 2010 Carol Stanier	Methane all lined up Swiss researchers have found that the way methane molecules vibrate when they hit a nickel surface can have a huge effect on their reactivity.
Chemistry World April 2012 Philip Ball	Column: The Crucible Chemistry could benefit from getting more touchy-feely.
PC Magazine March 15, 2006 Sebastian Rupley	Making Mini Movies Researchers have created an atomic force microscope capable of high-speed imaging 100 times faster than its competitors.
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 May 28, 2012 Phillip Broadwith	Photo-finish for Olympicene UK chemists have synthesized and imaged a molecule that closely resembles the Olympic rings.
Chemistry World August 13, 2012 Hayley Birch	Graphene reactions driven by substrate not reactant In chemical reactions, the reactants determine the level of reactivity. Not for graphene though -- the one-atom-thick sheets of carbon can react vigorously or barely at all to the same chemicals, depending on the substrate they're sitting on.
Chemistry World February 1, 2008 Lewis Brindley	Genetic Code Read Directly From RNA Scientists have directly read the genetic code from a single strand of RNA for the first time, using a combination of powerful microscopes and laser spectroscopy techniques.
Chemistry World November 11, 2012 Simon Hadlington	'Nano-welding' taken to the limits as specific bonds are cut and formed In a remarkable demonstration of the extreme limits of nanoscale engineering, researchers from the US and China have used the tip of a scanning tunnelling microscope to cleave and form selected chemical bonds on a complex molecule.
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 August 30, 2007 Simon Hadlington	Rigid Framework for Molecular Switches Researchers in Europe have found that a molecule can be flipped between two conductance states without changing its shape.
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.
Chemistry World June 13, 2012 Simon Hadlington	Exploding molecule provides 3D bond images Researchers from the US and Germany have demonstrated a new way to obtain accurate three-dimensional images of molecules, with precise measurements of the geometry of the molecule's chemical bonds.