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New Nano Materials Inspired by Bird Feathers Play with Light to Create Color(图)
New Nano Materials Bird Feathers Light to Create Color
2015/5/13
Inspired by the way iridescent bird feathers play with light, scientists have created thin films of material in a wide range of pure colors — from red to green — with hues determined by physical struc...
美国高科技3D电动跑车现身
高科技3D电动跑车 现身
2015/5/13
2015年4月上旬,一辆特殊的电动汽车出现在美国能源部总部大楼的大厅,这就是能源部资助、橡树岭国家实验室3D打印制造的Shelby Cobra跑车。该车充分展现了先进制造计划和先进汽车技术计划所取得的成就。
For faster, longer-lasting water filters, some scientists are looking to graphene —thin, strong sheets of carbon — to serve as ultrathin membranes, filtering out contaminants to quickly purify high vo...
NASA选定三种超轻材料为飞船减负
NASA 三种超轻材料 飞船减负
2015/4/27
美国国家航空航天局(NASA)日前为选定的三种超轻材料(ULW)继续支持研发和制造,并计划应用在未来的航空航天物体与结构上。备选材料先进技术的日臻成熟,将为深空探测飞船的总重“减负”40%。“超轻多功能材料结构是NASA最顶尖的研究领域,对人类和机器人探测任务将产生巨大影响。”空间技术任务理事会副理事长斯蒂文·泽西克说,“这些先进的技术对于我们发射更坚固、更轻的太空飞船和载荷非常有必要,因为我们的...
The National Science Foundation names engineering researcher Andrea Alù its Alan T. Waterman awardee for 2015
The National Science Foundation engineering researcher
2015/4/16
The National Science Foundation (NSF) has named Andrea Alù, an engineering professor at the University of Texas at Austin as the recipient of this year's Alan T. Waterman Award.Alù is a leading i...
Penn Researchers Develop New Technique for Making Graphene Competitor, Molybdenum Disulphide
Penn Researchers Making Graphene Competitor Molybdenum Disulphide
2015/2/16
Graphene, a single-atom-thick lattice of carbon atoms, is often touted as a replacement for silicon in electronic devices due to its extremely high conductivity and unbeatable thinness. But graphene i...
NEW DISCOVERY OPENS DOOR FOR RADICAL REDUCTION IN ENERGY CONSUMED BY DIGITAL DEVICES
RADICAL REDUCTION ENERGY CONSUMED DIGITAL DEVICES
2014/12/15
Capacitance is the ability of a material to store an electrical charge. Ordinary capacitors—found in virtually all electronic devices—store charge as a voltage is applied to them. The new phenomenon h...
Nanoshaping method points to future manufacturing technology
Nano Shaping method future manufacturing technology
2014/12/11
WEST LAFAYETTE, Ind. – A new method that creates large-area patterns of three-dimensional nanoshapes from metal sheets represents a potential manufacturing system to inexpensively mass produce innovat...
Penn Research Outlines Basic Rules for Construction With a Type of Origami
Penn Research Rules for Construction Type of Origami
2014/12/11
Origami is capable of turning a simple sheet of paper into a pretty paper crane, but the principles behind the paper-folding art can also be applied to making a microfluidic device for a blood test, o...
UO-industry collaboration points to improved nanomaterials(图)
nanomaterials collaboration
2014/11/20
University of Oregon microscope puts spotlight on the surface structure of quantum dots for designing new solar devices
Christian Gervasi and Thomas AllenEUGENE, Ore. — Nov. 20, 2014 — A potential pa...
美开发可预测材料超导特性的模拟算法
预测材料超导 电子结构 动力学
2014/11/5
研究铁基超导体的科学家,正在将前所未有的电子结构算法与高效运转的美国橡树岭国家实验室能源部泰坦超级计算机结合起来,用来预测旋转动力学,可模拟检测未经实验的新材料的超导特性。
澳开发出纳米级超快忆阻器
纳米级超快忆阻器 阻器 澳大利亚 功能材料
2014/10/1
澳大利亚墨尔本皇家理工大学的科学家用非晶钙钛矿氧化物开发出一种纳米级超快忆阻器。研究人员称,这种新型忆阻器为高度稳定可靠的纳米级存储设备的发展提供了一个新的平台,今后有望成为制造人工大脑的关键部件。相关论文将作为封面文章发表在2014年11月11日出版的《先进功能材料》杂志上。
超薄二硫化钼强力挑战石墨烯
二硫化钼 石墨烯 材料
2014/9/25
英国南安普敦大学的一组研究人员开发出一种石墨烯的替代材料。除了与石墨烯一样具备极佳的导电性能和超强的硬度外,该材料还具备发光特性,目前已经能够实现超过1000平方米的大面积生产,有望成为石墨烯有力的挑战者。相关论文发表在最新一期《纳米尺度》杂志上。
Plant-based building materials may boost energy savings
boost energy savings Plant-based building
2014/9/23
Scientists worldwide are turning to plants as a resource for biodegradable, renewable and environmentally friendly products and materials that can reduce landfill waste, help the environment and cause...
Titania-based material holds promise as new insulator for superconductors(图)
superconductors new insulator material
2014/9/4
Research from North Carolina State University shows that a type of modified titania, or titanium dioxide, holds promise as an electrical insulator for superconducting magnets, allowing heat to dissipa...