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Technology Research News
May 21, 2003
Eric Smalley |
Hydrogen storage eased The discovery of metal-organic frameworks promises to remove the principal stumbling block to hydrogen-powered cars, and the method could be ready for production use within five years.   |
Chemistry World
December 1, 2009
Simon Hadlington |
Magnesium Cage Shows Promise for Carbon Capture US chemists have shown that a hugely porous chemical cage containing large numbers of exposed magnesium centers can efficiently and selectively capture carbon dioxide from a mixture of gases and subsequently release it using little energy. |
Chemistry World
August 28, 2012
James Mitchell Crow |
MOF smashes gas storage ceiling Highly porous materials being developed as future fuel tanks for hydrogen- or methane-powered vehicles could hold much more gas than previously thought. |
Chemistry World
August 13, 2009
Lewis Brindley |
Picky MOF crystals show promise For the first time, researchers have modified metal-organic frameworks to selectively capture large organic molecules. |
Chemistry World
September 7, 2006
Tom Westgate |
Molecular Framework Sucks up Hydrogen Researchers have now developed a coordination framework material that is the best yet in terms of hydrogen storage. However, the materials currently require low temperatures to achieve the high loading of hydrogen. |
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
January 16, 2013
Simon Hadlington |
Azo-cops nab CO 2 but let N 2 go free Scientists have developed a new class of porous polymer that can efficiently trap carbon dioxide while actively rejecting nitrogen. |
Chemistry World
November 6, 2011
Laura Howes |
Predicting the Perfect MOF A collaboration between theoreticians and synthetic chemists in the US has led to a new understanding of metal-organic frameworks and some promising new compounds for methane storage. |
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. |
Chemistry World
July 19, 2012
Helen Gray |
MOF gate opens selective CO2 gas storage door UK researchers have designed a metal -- organic framework that, unusually, selectively adsorbs CO 2 over ethyne by a dynamic gate-opening mechanism and has potential applications in fuel gas separation. |
Chemistry World
October 18, 2009
Hayley Birch |
Conducting MOFs make membranes for fuel cells New crystalline compounds could yield better materials for fuel cell applications, according to Canadian scientists. |
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
August 11, 2014
Emma Stoye |
Swellable polymer sponges up CO 2 A porous polymer 'sponge' that absorbs carbon dioxide by swelling up has been developed by scientists in the UK. |
Scientific American
Steven Ashley |
Solid (State) Progress Hydrogen-fuel storage for cars gets a materials boost. |
Chemistry World
August 31, 2015
Matthew Gunther |
MOFs with a heart of glass Metal -- organic frameworks have long been the preserve of the solid state domain, but a group of scientists have now produced a molten MOF and cooled it to form a unique glass. |
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. |
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 23, 2010
Simon Hadlington |
MOFs make light work of it UK researchers have discovered a new use for metal-organic frameworks -- as potential lighting devices. |
Chemistry World
August 2, 2013
Jennifer Newton |
If everything is chemistry then I need to do chemistry Cafer Yavuz is a professor at the Korea Advanced Institute of Science and Technology in Daejeon. His groups design and make new materials from oxide and organic building blocks to offer sustainable solutions for energy and environmental issues. |
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
April 28, 2011
Elinor Richards |
Hardy MOFs endure extreme conditions The most chemically and thermally stable metal-organic frameworks yet have been made by a team in the US. |
Popular Mechanics
November 2006
Wise & Hutchinson |
The Truth About Hydrogen Can the simplest element in the universe really power our homes, fuel our cars and reduce our contribution to global warming? PM crunches the numbers on the real hydrogen economy. |
Reactive Reports
Issue 32
David Bradley |
The power of economy New metal-organic frameworks could make the transport, storage, and delivery of hydrogen much easier and open the door to what has been described as a hydrogen-based economy. |
Chemistry World
October 16, 2015
James Urquhart |
Microporous copper silicate sucks up carbon dioxide A carbon capturing microporous copper silicate material has been created that could offer a cheaper and simpler way of capturing carbon dioxide from the gas flues of fossil fuel power plants. |
Chemistry World
February 18, 2015
Emma Stephen |
Nanoporous methane storage -- an impossible target? Methane could reduce global dependence on oil so the search is on for nanoporous materials to act as fuel tanks for this tricky-to-store gas, but things are not looking promising. |
Geotimes
March 2006
Naomi Lubick |
Soaking up Carbon Researchers recently announced that they had created metal-based sponges that have exceptionally high capacity for storing carbon dioxide. This nanotechnology is one of many new solutions in the search to find a fix for storing human-emitted carbon-based greenhouse gases. |
IEEE Spectrum
March 2008
Prachi Patel-Predd |
Carbon Capture Starts From Coal-Plant Advances in Lab Two research groups come up with super carbon-capturing materials. |
Chemistry World
June 28, 2011
Simon Hadlington |
A Cool Way to Store Hydrogen? Theoretical chemists in the US have suggested a rather more commonplace solution to store hydrogen: ice. |
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
February 27, 2013
Simon Hadlington |
Supercharging methanol for fuel cells Scientists in Germany and Italy have discovered a way to derive hydrogen gas from methanol at low temperatures and pressures using soluble ruthenium-based 'pincer' catalysts. |
Chemistry World
February 3, 2009
Lewis Brindley |
Crack-proofing MOF membranes Chinese chemists have developed a way to reinforce metal-organic framework-based membranes to toughen them against cracking. |
Chemistry World
March 8, 2013
Yuandi Li |
High-capacity MOF shows clean fuel promise Scientists in Evanston, Illinois, and in Gaithersburg, Maryland have synthesized a metal organic framework in gram-scale quantities that has 67% of the deliverable storage density of gas cylinders, but at only a quarter of the pressure. |
Chemistry World
October 2007
Bernard Bulkin |
Can Chemistry Save the Planet? If we are to scale back our greenhouse gas emissions without society juddering to a halt, 21st century transport will need 21st century fuels. And of all the sciences, it is chemistry that is best placed to deliver them. |
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 23, 2011
Simon Hadlington |
Breaking the carbon-fluorine bond US chemists have discovered a new way to break the bond between carbon and fluorine atoms - the strongest carbon bond there is. |
Industrial Physicist
Feb/Mar 2004
Pinkerton & Wicke |
Bottling the hydrogen genie If hydrogen is to replace gasoline for road transport, a means to store useful quantities of hydrogen on-board the vehicle must be found. Storage as a liquid, as a gas, or in metal hydrides all have serious limitations. |
Technology Research News
November 17, 2004 |
Low-Pressure Material Holds Hydrogen One key to using hydrogen as a fuel is finding practical ways to store it. Researchers have discovered a kinetic trapping effect that allows hydrogen to be adsorbed. |
The Motley Fool
July 20, 2006
Anders Bylund |
Word of the Day: Sequestration GE and BP work together to stem global warming. These global giants certainly have the scale and resources to make it happen. |
Reactive Reports
Issue 62 |
Alumination at last! More powerful solid rocket fuel could be the product of research into a new class of compounds containing aluminum and hydrogen compounds, according to an international research team. |
Chemistry World
January 26, 2011
Mike Brown |
Carbon nanotubes for hydrogen storage Researchers in Germany have designed a 3D carbon-based nanotube matrix that can store and release hydrogen extremely efficiently. The material could form the basis of a sustainable hydrogen economy, they say. |
Chemistry World
April 28, 2009
Lewis Brindley |
New catalyst means cheap hydrogen from power stations A new catalyst system could improve the efficiency of gas-fired power stations by producing hydrogen gas as a by-product, say Dutch researchers. |
Chemistry World
July 18, 2006
Katharine Sanderson |
Membranes Weed Out Carbon Dioxide Chemical membranes that can capture the carbon dioxide emitted by fossil fuels have been developed by scientists, who say that they are substantially more efficient than conventional membranes. |
Chemistry World
March 13, 2013
Jennifer Newton |
Removing toxic chemicals with POPs In a search for alternatives to the filters used in gas masks, researchers at Northwestern University, Evanston, Illinois, have joined forces with scientists at the Edgewood Chemical Biological Center, Maryland, to investigate a series of porous organic polymers bearing metal-catecholate groups. |
Chemistry World
July 25, 2008
Simon Hadlington |
Structure of hydrogen splitting enzyme revealed Scientists in Germany have brought the prospect of generating cheap electricity from hydrogen a step closer by taking a snapshot of an elusive enzyme that can split the gas as efficiently as a platinum catalyst. |
Geotimes
November 2004
Dickens & Pinsker |
Methane Hydrate and Abrupt Climate Change Conceivably, we live in a world with an enormous amount of gas hydrate and free gas that affects climate and global systems over time |
Chemistry World
January 3, 2008
Richard Van Noorden |
Recycling Carbon Dioxide Into Petrol A new reactor could make chemically recycling carbon dioxide back into petrol a worthwhile endeavour. |
Chemistry World
July 11, 2013
Andria Nicodemou |
Turning carbon dioxide into something useful New research shows that a water-soluble catalyst developed by scientists in the US can electrocatalytically transform carbon dioxide into a useful chemical feedstock. |
Chemistry World
July 27, 2010
Mike Brown |
Bright ideas to develop solar fuels The US Department of Energy is financing the Joint Center for Artificial Photosynthesis, with $22 million going towards the project this year and the remainder handed out at a rate of approximately $25 million annually over the following four years. |
Chemistry World
August 31, 2012
Simon Hadlington |
'Ocean methane paradox' solved? Numerical simulation of methane production by methanogenic microorganisms suggests that up to 400 billion tonnes of methane could be sitting under the ice. If the ice sheet collapses due to a warming climate, this could release the gas, which in turn would increase warming, the researchers say. |
Chemistry World
March 12, 2014
Katia Moskvitch |
Saturn's largest moon home to prebiotic 'soup' Scientists should expand their quest for life in other worlds by searching for any kind of liquid, not just water, say researchers. |
