Article - 16 Feb 2017
Aluminium batteries are a relatively new development compared to other battery types and have gathered interest by employing aluminium anodes and graphite cathodes.
News - 19 Jan 2018
Lithium metal-based batteries have the potential to revolutionize the battery sector. With the theoretically ultra-high capacity of lithium metal used by itself, this new type of battery can be...
News - 11 Oct 2013
Reportlinker.com announces that a new market research report is available in its catalogue: Global and China Graphene Industry Report,...
News - 18 May 2013
Frustration led to revelation when Rice University scientists determined how graphene might be made useful for high-capacity batteries.
Calculations by the Rice lab of theoretical physicist...
News - 29 Apr 2013
The NIMS Global Research Center for Environment and Energy based on Nanomaterials Science (GREEN) and a research group at Tokyo Metropolitan University succeeded in measuring the volumetric expansion...
News - 26 Jul 2010
Illuminex Corporation, based in Lancaster, PA, recently closed a $500K financing round from undisclosed investors. Combined with the Company's multiple State and Federal research grants, this...
News - 30 Sep 2020
Global Graphene Group (G3), a Dayton, Ohio-based materials science company, was recently awarded a US Patent that is in-line with leading EV OEM technical solution roadmaps. G3’s patent for its...
News - 7 Sep 2017
There is a progressively increasing need for larger high-performance batteries as the world tries to move towards renewable energy from fossil fuels, but at the same time depending a lot more on...
News - 19 Mar 2014
The hunt is on – for new materials to be used in the next generation of batteries that may one day replace current lithium ion batteries. Today, the latter are commonplace and provide a reliable...
News - 2 Nov 2012
Researchers at Rice University have refined silicon-based lithium-ion technology by literally crushing their previous work to make a high-capacity, long-lived and low-cost anode material with serious...