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李灿 院士
现任中国科学院大连化学物理研究所研究员、洁净能源国家实验 室主任,2003年当选中国科学院院士。中国科学院大连化学物理研究所和日本东京工业大学联合培养理学博士。曾先后在比利时新鲁汶大学、美国西北大学、英国利物浦大学……
室主任,2003年当选中国科学院院士。中国科学院大连化学物理研究所和日本东京工业大学联合培养理学博士。曾先后在比利时新鲁汶大学、美国西北大学、英国利物浦大学……
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Make A Giant Leap For Energy Storage


发布人:管理员    发布时间:2015-03-29     返回首页

  For years, scientists have been working on a serious conundrum when it comes to energy storage: how do you create a storage device that is both efficient and cost-effective? Two types of storage devices: fuel cells and electrolyzers, have used platinum and noble metals energy conversion efficiency. But now it looks like a much cheaper option is on the horizon.Rutgers chemistry professors Charles Dismukes and Martha Greenblatt developed a nickel-phosphide compound (Ni5P4) that has promising potential to replace platinum in fuel cells and electrolyzers. They published their findings on the patent-pending technology in the March edition of the Royal Society of Chemistry journal, Energy & Environmental Science.



  “Scientists have been working for years to develop low-cost replacements for platinum and other noble metals used in these devices,” Greenblatt said in a press release. “Ni5P4 is the most promising new material presently available that combines both the energy conversion efficiency of noble metals, yet is much more affordable based on the high natural abundance of its elements – over a million times greater than platinum.”

  Rutgers has partnered with Proton OnSite, a commercial manufacturer of electrolyzers, to test this new material. SOFI has played a role in connecting the two, as Rutgers is an academic member of the SOFI consortium, and Proton OnSite is an industry partner. SOFI is partnering with Proton OnSite on our Demo ProjectYou can bet we’re going to keep our eye on this promising technology and this exciting partnership between Rutgers and Proton OnSite.



http://www.solar-fuels.org/rutgers-and-proton-onsite-make-a-giant-leap-for-energy-storage/

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