新闻网讯 近日,集成电路学院王春栋教授团队在绿氢制取及液态燃料电池方面取得新进展,团队最新研究成果以“Mott-Schottky Barrier Enabling High-Performance Hydrazine-Assisted Hydrogen Generation at Ampere-Le...
阅读全文The microscopic realm is where viruses, proteins and molecules dwell. Thanks to modern microscopes, we can venture down to see the inner workings of our very own cells. But even these impressive tools...
阅读全文RTP materials glow even after the light source is removed, making them valuable for various uses like security features, data protection, displays, and medical imaging. Carbon dots (CDs) are a kind of...
阅读全文Mechanism of the on-skin paintable waterproof biohydrogel. a) This schematic shows the concept and ability of an on-skin paintable PVA-TA (PT) biohydrogel. b) Ultradepth-of-field microscopy images sho...
阅读全文“This could lead to more energy-efficient and faster electronic devices, including quantum computers” says Yaji. Applying the subtleties of quantum mechanical behavior to computing is at the forefro...
阅读全文In oxide chemistry, scientists have known for a long time that oxide defects can spontaneously and consistently arrange themselves throughout the crystal lattice, once they reach certain concentration...
阅读全文We talk about photocatalysis when light acts as a catalyst, in this case, causing the silver phosphate of the TAMs to react with the water in the medium, releasing oxygen, silver ions, and free radica...
阅读全文Perovskite semiconductors are produced by spin coating or printing from a solution onto a substrate and are typically processed in glove boxes under a controlled atmosphere: There, the solvent is evap...
阅读全文The emergence of pandemic epidemics like COVID-19 has emphasized the necessity for rapid and precise analytical methods to prepare for potential future virus outbreaks. Raman spectroscopy*1, using gol...
阅读全文S波段聚合物光波导放大器研究获突破 近日,华南师范大学物理学院副教授郑克志团队与吉林大学教授王菲团队合作,在稀土纳米晶掺杂的S波段聚合物光波导放大器的研究中取得新突破。相关成果发表于《纳米快报》(Nano ...
阅读全文日本王子Holdings與山形大學開發了一項以纖維素奈米纖維(CNF)為主要成分之燃料電池(FC)「高分子電解質膜(PEN)」。新開發的「高分子電解質膜」係由王子Holdings的CNF與具有氫離子透過性(質子傳導性)的微粒子複合而成,...
阅读全文日本高純度化學開發了一項奈米銀材料「Ag Nanostar」,採用獨家無電鍍技術,進而實現了星形形狀。另可透過表面處理賦予其機能性。Ag Nanostar可望適用於電池用導電助劑、光學材料等用途,且由於比一般微粒子具有更大...
阅读全文日本OHARA積極推動旗下氧化物類固體電解質材料在固態電池領域的應用提案,且將其應用於採用了轉換型(Conversion)次世代正極材料的試作固態電池後,展現了320 mAh/g的優異放電容量。 OHARA推出的氧化物固體電解質材料...
阅读全文日本精密陶瓷中心(JFCC)透過產官學合作,確認適用於氟離子電池,由銦(In)與氟化鑭(LaF3)混合製成的新型氟離子(In+LaF3)負極材料不會造成電池內部短路,並可穩定地反復充放電。此項研究成果活用了新的充放電反應,藉此...
阅读全文日本Denka將推出低介電有機絕緣材料(LDM)「SNECTON」,係為一項兼具低介電特性與架橋性之軟質材料,可適用於覆銅層壓板(CCL)中的絕緣層,今後將進一步推動在5G通訊、Beyond 5G等次世代通訊之電子基板材料用途的普及化...
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