搜索结果: 1-15 共查到“电子科学与技术 Electronics”相关记录32条 . 查询时间(0.024 秒)
南京工业大学npj Flexible Electronics(《柔性电子(英文)》)入选2023年《科技期刊世界影响力指数(WJCI)报告》Q1区(图)
npj Flexible Electronics 柔性电子 WJCI
2024/4/15
上海交通大学电子信息与电气工程学院微纳电子学系陈长鑫研究组在《Nature Electronics》上发表最新研究成果(图)
上海交通大学电子信息与电气工程学院 微纳电子学系 陈长鑫 Nature Electronics
2021/10/11
近日,上海交通大学电子信息与电气工程学院微纳电子学系陈长鑫研究组在窄的边缘光滑的石墨烯纳米带(GNR)的制备及其高性能晶体管应用研究方面取得了重要进展。研究成果以“Sub-10-nm graphene nanoribbons with atomically smooth edges from squashed carbon nanotubes(来自被压扁碳纳米管的边缘原子级光滑的亚10纳米石墨烯纳...
中科院苏州纳米所印刷电子中心赵建文研究团队专注于高性能可印刷墨水批量化制备、印刷碳基电子器件和电路构建及其在新型领域中的应用研究。近年来在印刷薄膜晶体管器件、电路和类神经元电子器件等方面发表研究论文20多篇(如JMCC, 2020, 8, 6914-6922; Carbon, 2020, 163, 145-153; Adv. Fun. Mater. 2019, 1906335; ACS AMI, ...
苏州大学纳米科学技术学院Mario Lanza教授课题组在Nature Electronics上发表展望性文章(图)
苏州大学纳米科学技术学院 Mario Lanza 教授 Nature Electronics SPM纳米电子
2019/7/22
日前,纳米科学技术学院 Mario Lanza教授课题组在Nature Electronics上发表了题为“Scanning probe microscopy for advanced nanoelectronics”的展望性论文,分析了扫描探针显微镜(SPM)在纳米电子研究领域中的未来。文章一经公开便引起了业内专家的广泛关注。该论文的第一作者是惠飞博士,她是纳米科学技术学院2018届毕业博士生,...
电子学报当选“2017中国最具国际影响力学术期刊”CHINESE JOURNAL OF ELECTRONICS 当选“2017中国国际影响力优秀学术期刊”(图)
电子学报 2017 中国 国际影响力 学术期刊 CHINESE JOURNAL OF ELECTRONICS 2017 中国国际影响力 优秀学术期刊
2017/12/6
在举国上下认真贯彻落实“十九大”精神、积极建设新时期创新强国的重要历史时刻,中国期刊协会、中国科学技术期刊编辑学会、中国高校科技期刊研究会、全国高等学校文科学报研究会和《中国学术期刊(光盘版)》电子杂志社有限公司于2017年11月22日—23日在北京会议中心举办了“2017中国学术期刊未来论坛”。该论坛以“新时代、新思路、新发展——开创中国学术期刊新纪元”为主题,吸引了来自全国各学科的2700多位...
Researchers develop dynamic templates critical to printable electronics technology
Researchers dynamic templates critical printable electronics technology
2017/7/25
When it comes to efficiency, sometimes it helps to look to Mother Nature for advice – even in technology as advanced as printable, flexible electronics.Researchers at the University of Illinois have d...
2017年电子,通信和航天技术国际会议(2017 International conference of Electronics, Communication and Aerospace Technology )
2017年 电子 通信 航天技术 国际会议
2017/3/9
International conference of Electronics, Communication and Aerospace Technology (ICECA 2017) is being organized on 20,21,22, April 2017 by RVS Technical Campus.ICECA 2017 will provide an outstanding i...
Engineers discover groundbreaking semiconducting material that could lead to much faster electronics
Engineers semiconducting material much faster electronics
2016/2/23
University of Utah engineers have discovered a new kind of 2D semiconducting material for electronics that opens the door for much speedier computers and smartphones that also consume a lot less power...
Electronics get a power boost with the addition of a simple material
Electronics power boost simple material
2015/11/12
The tiny transistor is the heart of the electronics revolution, and Penn State materials scientists have just discovered a way to give this workhorse a big boost, using a new technique to incorporate ...
New technology using silver may hold key to electronics advances
silver may hold key electronics advances
2015/7/13
Engineers at Oregon State University have invented a way to fabricate silver, a highly conductive metal, for printed electronics that are produced at room temperature.There may be broad applications i...
The Department of Electronics, University of York
The Department of Electronics, University of York electronic
2014/11/13
Welcome! Thank you for visiting the Department of Electronics at the University of York.
We belong to one of the world's top 100 Universities, located in York, a beautiful city, often voted among the...
Senior Lecturer Alister Burr,The Department of Electronics, University of York(图)
Senior Lecturer Anthony Tew The Department of Electronics, University of York
2014/11/13
Senior Lecturer Alister Burr,The Department of Electronics, University of York,Areas of Expertise: MIMO Systems, Modulation and Coding, Wireless Systems, Physical Layer Network Coding, Iterative Techn...
Nanowire bridging transistors open way to next-generation electronics
Nanowire bridging transistors open way next-generation electronics
2014/6/12
A new approach to integrated circuits, combining atoms of semiconductor materials into nanowires and structures on top of silicon surfaces, shows promise for a new generation of fast, robust electroni...