搜索结果: 1-11 共查到“电子科学与技术 nanoscale”相关记录11条 . 查询时间(0.078 秒)
New blue light technique could enable advances in understanding nanoscale technologies(图)
蓝光技术 纳米级技术 半导体 电子产品
2023/6/26
A team of Brown University researchers created a solution to a nanoscale resolution challenge that has for decades limited the study of materials that could lead to more energy efficient semiconductor...
中国科学院深圳先进技术研究院杜学敏研究员入选Nanoscale 2021年度Emerging Investigators(图)
中国科学院深圳先进技术研究院 杜学敏研究员 入选 Nanoscale 2021年度 Emerging Investigators
2021/5/10
近日,中国科学院深圳先进技术研究院医工所纳米调控中心杜学敏研究员被遴选为英国皇家化学学会旗下Nanoscale期刊2021年度Emerging Investigators,该荣誉颁授给在纳米领域有重要创新性研究成果的优秀青年科学家,他们在纳米科学与技术方面取得的成果被认为有望影响未来纳米研究的发展方向。杜学敏研究员还受邀在Nanoscale 2021 Emerging Investigators专...
Spontaneous formation of nanoscale hollow structures could boost battery storage(图)
Spontaneous formation nanoscale hollow structures boost battery storage
2020/7/3
An unexpected property of nanometer-scale antimony crystals -- the spontaneous formation of hollow structures -- could help give the next generation of lithium ion batteries higher energy density with...
Impact of Manufacturing Flow on Yield Losses in Nanoscale Fabrics
Yield Analysis Nanotechnology NASIC Nanowire
2014/12/8
Reliable and scalable manufacturing of nanofabrics entails significant challenges. Scalable nano-manufacturing approaches that employ the use of lithographic masks in conjunction with nanofabrication ...
Parameter Variation Sensing and Estimation in Nanoscale Fabrics
parameter variation NASIC on-chip variation sensor nanowire FETs
2014/12/8
Parameter variations introduced by manufacturing imprecision are becoming more influential on circuit performance. This is especially the case in emerging nanoscale fabrics due to unconventional manuf...
Progress made in developing nanoscale electronics
Progress developing nanoscale electronics
2014/5/13
Scientists are facing a number of barriers as they try to develop circuits that are microscopic in size, including how to reliably control the current that flows through a circuit that is the width of...
二维半导体材料拥有独特的物理性质,可以应用于不同的技术领域,因此成为了纳米交叉学科的研究热点。石墨烯是目前研究最为广泛的二维材料,但由于其带隙为零,限制了它在许多领域中的应用。作为石墨烯的类似物,具有半导体带隙的金属硫化物备受关注。基于这些二维半导体材料的光电器件具有优越的性能,并且可以设计复杂的器件结构。由于大的比表面积,这些二维材料具有很好的气敏传感能力。制备这些二维材料的单层或少层结构有许多...
An approach based on particle swarm computation to study the nanoscale DG MOSFET-based circuits
Particle Swarm DG MOSFET Optimization nanoscale compact model
2010/11/22
The analytical modeling of nanoscale Double-Gate MOSFETs (DG) requires generally several necessary simplifying assumptions to lead to compact expressions of current-voltage characteristics for nanosca...
'Universal' equation describes how materials behave at nanoscale(图)
'Universal' equation materials nanoscale
2009/11/24
Understanding how materials behave at tiny length scales is crucial for developing future nanotechnologies and continues to be a great challenge for both theoretical and experimental physicists alike....
Fault Tolerant Nanoscale Microprocessor Design on Semiconductor Nanowire Grids
Fault tolerance Nanoelectronics Nanofabrics Nanoscale processors Semiconductor nanowires Nanowire grids
2014/11/7
As CMOS manufacturing technology approaches fundamental limits, researchers are looking for revolutionary technologies beyond the end of the CMOS roadmap. Recent progress on devices, nano-manufacturin...
PLR (Plastic Lithium Rechargeable) Batteries Using Nanoscale Materials: A Convenient Electrical Energy Power for the Future?
Plastic Lithium Rechargeable batteries nanoscale materials
2010/12/9
This communication describes the synthesis of: (i) non toxic and low cost nanocrystalline electrode materials which can be advantageously prepared at low temperature; (ii) highly conductive electrolyt...
