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Chemistry World January 9, 2014 Tim Wogan |
Disorder opens up battery material field Better lithium-ion batteries that hold more power could be made by introducing disorder into their electrodes -- going against the prevailing wisdom on the best way to improve them. |
Chemistry World September 26, 2011 Simon Hadlington |
Electric vehicles set to charge ahead 'There is a big effort to improve lithium ion batteries for electric vehicles and largely the outcome will be dictated by how the consumer reacts,' says Daniel Abraham, a battery expert at the Argonne National Laboratory in the US. |
Chemistry World April 2, 2009 Jon Cartwright |
Biological battery powers up Scientists in the US have created a rechargeable 'lithium ion' battery with the help of a genetically programmed virus that acts as a scaffold for highly conductive electrodes. |
Chemistry World June 20, 2010 Jon Cartwright |
Carbon nanotubes boost battery power Researchers in the US claim to have created electrodes from carbon nanotubes that can make lithium-ion batteries some ten times more powerful than conventional models. |
Chemistry World March 11, 2011 Harriet Brewerton |
Drawing batteries Scientists in Japan have made an electrode for a lithium-air battery using a pencil. The advance could bring efficient, environmentally friendly and safe batteries for electric vehicles a step closer. |
Chemistry World July 28, 2014 Tim Wogan |
Better batteries with pure lithium anodes Researchers in the US have developed a coating that could allow next generation batteries to have pure lithium anodes. |
IEEE Spectrum February 2011 Neil Savage |
Batteries That Breathe Using oxygen as a cathode could give lithium batteries 10 times the energy |
Popular Mechanics December 20, 2007 Logan Ward |
New Nanowire Battery Life Reaches From iPods to Electric Cars Lithium-ion batteries that power most devices may soon be able to hold 10 times as much power. |
Chemistry World April 25, 2013 Charlie Quigg |
Inorganic nanosheet to enhance batteries A graphene inspired electrode material that could help batteries hold more power has been developed by Chinese scientists. The large surface area of these cobalt oxide nanosheets is key to their electrochemical performance. |
Chemistry World November 25, 2008 Lewis Brindley |
Silicon for better batteries A new silicon-based anode could greatly increase the storage capacity of lithium ion batteries - boosting the runtimes of devices such as laptops and mobile phones by up to seven times |
Chemistry World December 17, 2007 Jonathan Edwards |
Silicon Nanowire Boost for Rechargeable Batteries Scientists in the US have devised an easy way of using silicon nanowires to increase the capacity of lithium batteries. |
Chemistry World April 7, 2015 Tim Wogan |
Super-fast charging aluminium batteries ready to take on lithium A new rival to the lithium-ion battery has been created that charges in under a minute and still performs almost perfectly after being recharged thousands of times. |
Chemistry World September 15, 2009 Lewis Brindley |
Super-thin batteries made from paper and algae Although the batteries have lower voltage and power density than conventional batteries, their low cost and flexibility hold great promise for applications where metal-based batteries are impractical. |
Chemistry World May 17, 2009 Jon Cartwright |
Carbon electrodes help form high capacity lithium-sulfur batteries Chemists in Canada have used a carbon framework to form an electrode in lithium-sulfur batteries that results in charge capacities several times greater than standard lithium ion batteries. |
Chemistry World March 11, 2009 Hayley Birch |
Super battery could power electric cars Scientists in the US have built a lithium based 'super battery' that releases its charge 100 times faster than a regular rechargeable. |
Chemistry World September 15, 2015 William Bergius |
New cathode material for sodium ion batteries An international team of scientists led by the inventor of the lithium ion battery has put forward a new cathode material for its potential successor, the sodium ion battery. |
Chemistry World November 17, 2013 Tim Wogan |
Self-healing battery cracks anode fracturing problem US researchers have created battery anodes that heal themselves after they fracture, substantially prolonging battery life. |
IndustryWeek May 19, 2010 |
Nanocomposite Materials Offer Battery Boost New research from the Georgia Institute of Technology suggests material could vastly improve performance of lithium-ion batteries for cars and electronics. |
Chemistry World April 3, 2014 Jennifer Newton |
Nanoporous anodes charge up Scientists in China and the US say a new anode material they have created represents a significant step forward in the development of long-life stationary lithium-ion batteries for large-scale energy storage systems. |
Chemistry World September 7, 2015 Tim Wogan |
Graphene and phosphorene upgrade sodium ion battery A new material comprising interspersed layers of graphene and phosphorene has been shown to be a more stable, more conductive and higher capacity anode for sodium ion batteries than previous materials. |
Chemistry World October 13, 2011 Fay Nolan Neylan |
Fluoride Shuttle Batteries Lift Off Scientists in Germany say that a rechargeable battery that works on the basis of fluoride transfer between electrodes could have a better storage capacity than current batteries. |
Chemistry World February 10, 2015 William Bergius |
Next generation lithium -- sulfur batteries given DNA boost In a creative application of rational design, scientists in China have turned to nature to help overcome one of the key challenges facing the most probable successor to the lithium ion battery. |
Chemistry World February 15, 2010 Andy Extance |
Reversing attraction shrinks car batteries Transforming the most important attractive force acting between molecules into a repulsive one could enable US scientists to nearly halve the size of lithium-ion batteries. |
Chemistry World July 28, 2015 Laura Fisher |
Battery buffer takes the strain Researchers in China and the US have developed a layered oxide that shrinks when ions are intercalated into it, with the hope of buffering the volume expansion seen in common electrode materials. |
Chemistry World December 21, 2015 Tim Wogan |
Doped electrodes cram charge into supercapacitors A new supercapacitor electrode material has been created by Chinese researchers that can store much more energy than conventional supercapacitors. |
Chemistry World July 3, 2012 Philip Robinson |
Triazine boosts polymer energy storage A team of scientists from Germany and Japan have presented a new principle for storing energy in lithium ion batteries using a porous polymer framework. This could give these new batteries double the energy storage of conventional lithium ion batteries. |
Chemistry World January 28, 2010 Lewis Brindley |
Better batteries with nano-cables Nano-sized cables made with titanium dioxide-coated carbon nanotubes could hold the key to developing new high-capacity batteries, report chemists in Germany and China. |
Chemistry World November 2, 2015 Tim Wogan |
New lithium-air battery safe from water damage A lithium-air battery with superior efficiency and stability has been developed by researchers in the UK. |
Chemistry World August 15, 2012 Andy Extance |
Cells step toward plugless charging What if you could charge your phone's battery by slotting it into the sole of your shoe and walking on it? That bizarre scenario has just become more likely, thanks to Zhong Lin Wang and his team at the Georgia Institute of Technology, US. |
Chemistry World December 15, 2014 Dannielle Whittaker |
From nutshell to supercapattery Scientists in Canada have created a hybrid sodium ion capacitor (NIC) from peanut shells in a pioneering study bridging the gap between conventional ion batteries and supercapacitors. |
Chemistry World March 31, 2011 Kate McAlpine |
Water result for Li battery technology A new approach to alkali batteries, in which the cathode is dissolved in water that flows through the system, could overcome the limitations of currently available batteries |
Chemistry World February 23, 2011 Laura Howes |
Capsules for safer and more reliable lithium ion batteries Capsules coated onto electrodes could mitigate potential problems with lithium ion batteries by turning the batteries off when they overheat and 'healing' the electrodes when they crack and degrade, according to a researcher in the US. |
IEEE Spectrum December 2008 Prachi Patel-Predd |
A Battery-Capacitor Hybrid for Hybrids Engineers give lead-acid batteries a makeover by crossing them with ultracapacitors. |
Chemistry World December 3, 2013 Emily James |
Lithium -- sulfur batteries ready to go the distance A non-stop trip from London to Paris in an eco-friendly car could soon be possible, if powered by the latest lithium -- sulfur battery created by scientists in the US. |
Chemistry World September 8, 2011 David Bradley |
Seaweed extract gives lithium batteries a boost An extract from brown algae could give rechargeable lithium-ion batteries a boost by allowing silicon nanopowder to be used as a high-capacity alternative to graphite electrodes. |
Chemistry World April 12, 2010 Andy Extance |
Balloon model bursts battery charge gap Over-simplifying chemical processes occurring in batteries has obscured an opportunity to improve energy efficiency, according to Slovenian and German scientists. |
Chemistry World June 12, 2014 Jennifer Newton |
Superelastic battery Lithium ion batteries that can be stretched by 600% have been unveiled by scientists in China. |
Chemistry World December 9, 2010 Mike Brown |
Lithiation through the lens Scientists have generated high resolution images of lithium ions being deposited on a single nanowire anode, revealing how the material grows and flexes in response to charge. |
Chemistry World August 8, 2010 Lewis Brindley |
Wet batteries power up The performance of water-based lithium-ion batteries has been greatly boosted by removing oxygen from the power cells, report Chinese researchers. |
Chemistry World August 10, 2011 Simon Hadlington |
Toyota create first magnesium-sulfur rechargeable battery US researchers have demonstrated the first rechargeable battery system using a magnesium anode and sulfur cathode. |
Chemistry World July 26, 2011 Kate McAlpine |
Transparent Lithium Ion Batteries Make Electricity Generating Windows Possible Energy-harvesting windows are a step closer with the development of a transparent lithium ion battery. |
Chemistry World July 25, 2013 Jeanne Therese Andres |
Long-life lithium sulfide batteries Scientists from the US and China have identified a polymer that makes lithium sulfide batteries last longer. |
Chemistry World September 22, 2014 David Bradley |
Molten metal batteries set to store grid power Storing electricity from intermittent, but renewable, sources such as wind and solar power and even from more conventional power stations, could allow national electrical grids to meet demand more consistently. |
Chemistry World February 26, 2015 Phillip Broadwith |
Asahi Kasei to buy Polypore for battery materials Japanese chemicals firm Asahi Kasei has agreed to buy the energy storage segment of US membrane specialist Polypore for $2.2 billion |
IEEE Spectrum March 2009 Samuel K. Moore |
A Rapid-Recharge Lithium Battery MIT scientists tweak lithium formula to let battery discharge in seconds |
Chemistry World March 23, 2011 |
Battery Turns Entropy Into Electricity US researchers have developed a battery that generates power from that entropy difference. |
Technology Research News March 26, 2003 |
On-chip battery debuts Researchers from Hosei University in Japan have taken a big step toward giving nano devices and biochips onboard power supplies. |
Chemistry World October 28, 2010 Carol Stanier |
Hybrid electrolyte for better batteries Safer, more durable batteries are the aim of a US team that has made a new, hybrid nanoparticle-ionic liquid electrolyte. |
Chemistry World September 19, 2007 Ned Stafford |
Electric Cars Hoping for Lithium Ion Revolution General Motors is betting that chemists are close to solving the plug-in hybrid electric vehicle puzzle, by developing rechargeable batteries that are safe, robust, long-lasting, and inexpensive. |
Chemistry World September 25, 2008 Simon Hadlington |
Graphene racks up the charge Researchers in the US have used graphene, sheets of carbon that are just one atom thick, to improve the performance of energy-storage devices which could supersede batteries in electric cars. |