搜索结果: 1-15 共查到“semiconductor”相关记录194条 . 查询时间(0.078 秒)
2024年3月13日,中国科学院长春光机所佟存柱研究员团队在光子晶体面发射激光器(PCSEL)研究领域取得重要进展,提出三晶格结构并实现低阈值1550nm PCSEL,相关成果发表在Light:Science and Application vol.13,44,2024,国际半导体行业著名刊物《Semiconductor Today》以“Triple-lattice photonic ...
Engineers report a major advance in creating a new family of semiconductor materials(图)
半导体材料 硫族化 物钙钛矿 太阳能电池
2023/6/7
Astonishing diversity: Semiconductor nanoparticles form numerous structures
lead sulfide nanoparticles hexagonal structure BCC
2021/8/10
The structure adopted by lead sulphide nanoparticles changes surprisingly often as they assemble to form ordered superlattices. This is revealed by an experimental study that has been conducted at DES...
东南大学电子科学与工程学院研究团队在圆片级柔性InP半导体晶体管器件制备和封装技术方面取得重要进展,相关研究成果于近日被国际半导体行业著名杂志《Semiconductor Today》以《Flexible indium phosphide DHBT frequency boost》为题进行专题报道。柔性电子技术是目前电子行业所关注的重要研究方向,可广泛应用于电子通信、显示、太阳能电池、可穿戴设备、...
西安电子科技大学电子工程学院模拟电子线路英文课件Chapter1 Semiconductor Diodes
西安电子科技大学电子工程学院 模拟电子线路 英文课件 Chapter1 Semiconductor Diodes
2020/6/10
西安电子科技大学电子工程学院模拟电子线路英文课件Chapter1 Semiconductor Diodes。
国际半导体业界权威刊物《Semiconductor Today》和《Compound Semiconductors》相继报道陈长清、戴江南团队研究新进展(图)
半导体;深紫外发光;芯片;器件领域
2021/10/18
华中科技大学武汉光电国家研究中心陈长清、戴江南研究团队近11年以来一直从事半导体深紫外发光芯片和器件领域(重点围绕Deep Ultraviolet Light Emitting Diodes和Deep Ultraviolet Laser Diodes)的研究工作。近日,国际半导体业界权威刊物《Semiconductor Today》和《Compound Semiconductors》相继报道团队研...
Researchers repurpose failed cancer drug into printable semiconductor(图)
researcher repurpose printable semiconductor
2019/10/17
Many potential pharmaceuticals end up failing during clinical trials, but thanks to new NSF-funded research from the University of Illinois, biological molecules once considered for cancer treatment a...
New ultrathin semiconductor materials exceed some of silicon’s ‘secret’ powers,Stanford engineers find(图)
New ultrathin semiconductor materials silicon secret powers Stanford engineers
2017/9/5
The next generation of feature-filled and energy-efficient electronics will require computer chips just a few atoms thick. For all its positive attributes, trusty silicon can’t take us to these ultrat...