Over the last sixty years,the scaling of silicon-based complementary metal-oxide-semiconductor(CMOS)field-effect transis......

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Nano-and molecular electronics investigate charge transport through nano-scale heterojunction sin the form of metal-X-me......

Nano-scale domain structures in multiferroic(or ferroelectric)thin films have emerged as a golden mine for novel phenome......

Carbon nanomaterials such as carbon nanotube and graphene have been around for many years.These materials have very inte......

We will give a brief overview of scaling of power dissipation of CMOS.Then I will describe the advantage of collective s......

One of the challenging goals of molecular electronics is to understand and master electronic devices at the single-molec......

Recently,ferromagnetic (FM) ordering has been observed in BN nanotubes (BNNTs) with fluorination [1].It has been shown t......

Establishing a reliable electrophysiological recording platform is crucial for cardiology and neuroscience research.Noni......

Doping control has been a key challenge for electronic applications of van der Waals materials.Here,we demonstrate compl......

CMOS binary logic is limited by short channel effects, power density, and interconnection restrictions. The effective so......

Two-dimensional (2D) bismuth,bismuthene,is an emerging pnictogen family member that has received increasing research att......

Nanotechnology may well prove to be the 21st century’s new wave of scientific knowledge that transforms people’s lives......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

本文先扼要回顾电子技术的进展历程,从晶体管至微电子集成电路,并引伸至光电子器件,近来又有倾向从微米尺度缩小至纳米尺度,即从微......

本文通过求解热库中有源ＬＣ电路的密度矩阵方程，研究电路状态的时间演化及其稳态特性。结果表明，在零温度热库中有源ＬＣ电路的稳态解为相干......

鉴于接近式X射线光刻技术具有高分辨率、大焦深、大曝光像场、高产量、大工艺宽容度、易于扩展到50 nm及50 nm以下规则等诸多优点,......

本世纪最后十年，一个崭新的学科领域－纳米科学技术诞生了，这一新领域为多科性交叉学科，包括纳米电子学、纳米材料科学、纳米生物学、纳......

采用新电极结构的PECVD技术，在高功率密度、高氢稀释比、低温、偏压及低反应气压的条件下，在SiO2玻璃表面形成双等离子流，增加了SiO2......

纳电子技术涉及许多专门领域,是一门高度交叉的学科.本文把注意力集中在硅纳电子技术、111-V族化合物半导体纳电子技术、碳纳管电......

评论了纳米电子学的沿革路程，介绍了纳米电子学的研究内容，并预测了它的发展趋势。进而指出，纳米电子学的崛起与发展将会对21世纪的量......

介绍了纳米电子学的基本概念及其＂自上而下＂和＂自下而上＂的发展路线,分析概括了纳米电子器件的基本物理原理及其应用,基于纳电子器件的......

介绍了利用碳纳米管代替传统的硅材料研制分子整流器这一重要的电子元器件的进展状况.着重分析了现阶段利用碳纳米管大量研制分子......

微电子器件的下一代是纳米电子器件，它将在未来的信息社会中起重要作用，所以，引起一些发达国家和大公司对纳米电子学的研究的高度重视......

论述了电子学的前沿－纳米电子学的学科涵义，发展动力，研究进展，学科分支，研究内容，学科发展的重要意义。......

Quantum-dot cellular automaton (QCA) is an emerging, promising, future generation nanoelectronic computational architect......

纳米电子器件是微电子器件发展的下一代，现有微电子器件的主要材料是极纯的硅、锗和镓砷等晶体地体。纳米电子器件有可能是以有机或......

利用传统微加工与纳米组装技术构建出了金属颗粒调制的复合碳纳米管场效应及单电子器件.电子输运性能测量结果表明这类复合碳纳米......

In this paper, we discuss the full counting statistics of superconducting quantum dot contacts. We discuss the effects b......