Anchoring individual iridium atoms on the surface of a catalytic particle boosted its performance in carrying out a reaction that's been a bottleneck for sustainable energy production.
阅读全文Topological feature could prove useful for encoding information in electron spins.
阅读全文An international team of researchers investigated the ultrafast dynamics of magnetic anisotropy in an orthoferrite using intense mid-infrared laser pulses, revealing distinct roles between electronic ...
阅读全文Researchers have developed a nanoparticle-based disinfectant that can continuously kill viruses on a surface for up to seven days - a discovery that could be a powerful weapon against COVID-19 and oth...
阅读全文Ever wonder how tiny creatures can so easily slice, puncture, or sting? New research reveals that ants, worms, spiders, and other tiny creatures have a built-in set of tools that would be the envy of ...
阅读全文Using laser pulses, MXenes can be switched repeatedly between a flat and a rippled shape, opening up a wide spectrum of possible applications.
阅读全文Researchers from Switzerland are tapping into an unexpected energy source right under our feet: wooden floorings. Their nanogenerator, presented September 1 in the journal Matter, enables wood to gene...
阅读全文Research suggests a need to better understand how nanomaterials found in common products react under environmental conditions.
阅读全文An encapsulated bimetallic Ni-Co alloying strategy is innovatively designed to enhance hydrodeoxygenation performance of biomass derivatives to the corresponding methylated products in water.
阅读全文An old saying goes “never change a running system.” However, novel techniques can be much superior to former ones. Until today, chemical reactions are majorly accelerated by catalytic materials that...
阅读全文据外媒reNEWS消息,8月27日,西门子歌美飒首席执行官Andreas Nauen接受德国《财富》杂志采访时表示,将暂停在中国的陆上风机销售业务,并在全球范围内涨价3-5%。但截至目前,并未在西门子歌美飒官网查到该信息。 据彭...
阅读全文日本住友化學發表完成了世界第一款100%染料系的藍色光阻劑,並預計在明年取得認可,且同時持續推動100%染料系紅色光阻劑的開發,未來將會陸續投入市場。另外在顏料與染料複合而成的染料系光阻劑方面,目前已有藍色、...
阅读全文Improvement of structural efficiency in various materials is critically important for sustainable society development and the efficient use of natural resources. Recently, a lot of attention in scienc...
阅读全文大阪府立大學與近畿大學工業高等專門學校(KUTC)、高輝度光科學研究中心(JASRI)透過精密控制碲化鍺(GeTe)的電子構造,成功地將室溫附近的熱電轉換效率最高增加至現有材料的2倍。 室溫附近的排熱存在量雖多,但大多是小...
阅读全文Magnesium-based lightweight structural materials exhibit potential for energy savings. However, the state-of-the-art quest for novel compositions with improved properties through conventional bulk met...
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