分子电子器件

扫面探针显微术和量子化学计算的发展为研究分子电子器件提供了强有力的工具。

The development of scanning probe microscopes ( SPM ) techniques and quantum chemistry calculations provides powerful tools for exploring the molecular electronics .

本文介绍了单电子现象的基本物理原理，分析了一些分子电子器件中的单电子现象，并说明了分子电子器件中单电子现象的研究意义及其应用前景。

In this paper , the basic principle and general appearance of single-electron phenomena in some molecular electronics devices are briefly introduced . Its potential application and prospect in molecular electronic devices are discussed too .

接着，本文就DNA折纸术的一个发展方向进行了更深入的研究：和DNA金属化相结合构造分子电子器件。

Then , a subsequential study was carried out as an application of DNA origami : molecular electronic circuit constructed by DNA origami combining with DNA metallization .

实验表明，C（60）是一种良好的电子载体，其修饰的ITO／C（60）膜系统具有良好的光电响应，在发展为光敏性分子电子器件方面有着极大的市场潜力。

Experiments prove C60 a good electron carrier . C60 modified ITO / BLM system possesses the fine photoelectric response , suggesting a great market potential of the development of photoactive molecular electric device .

基于交叉结构的分子电子器件及其逻辑电路的研究进展

Molecular electronic devices and Logic circuits based on crossbar structures

分子电子器件研究获得了越来越多得关注。

Molecular electronic devices have attracted more and more attention .

双层类脂膜与生物传感器从双层类脂膜到生物分子电子器件的研究

The Study of Biomolecular Electronic Devices with Bilayer Lipid Membranes and Related Systems

文中提出了用分子电子器件构成的关联存贮器和网络模型；

Some models of associative memories and networks built from MED are proposed .

分子电子器件简化模型的电子透射谱的计算

Calculation of the electronic transmission spectra of a molecular device using a simplified model

三端分子电子器件通用模型

SPICE Model of Three - Terminal Molecular Device

自旋交叉配合现象与分子电子器件

The Spin-crossover Phenomena and Molecular Electronic Device

分子电子器件的研制是近年来的一个热点课题。

The studies on molecular scale electronic devices have been developed very rapidly in recent years .

自组装分子电子器件

Self - Assembled Molecular Electronic Devices

分子电子器件中的单电子现象

Single-electron Phenomena in Molecular Electronic Devices

因此，大力发展分子电子器件就成为了一种解决问题的有效途径。

Therefore , to develop molecular electronic devices will be an promising way to solve the above problem .

对各种纳米电子器件如单电子器件、共振隧穿器件和分子电子器件的研究现状及面临的主要挑战进行了讨论。

The progress and challenge on quantum mechanism nano-devices such as SET , RTD and molecular device were also investigated .

分子电子器件是跨学科的前沿领域，分子自组装技术是解决分子电子器件与外界连接的最有效手段之一。

Recent developments in these film-forming techniques , as well as their applications in the field of molecular electronic devices are reviewed briefly .

根据组成纳米电子器件材料的不同，其主要可分为：纳米线电子器件、分子电子器件及石墨烯电子器件。

According to the different materials used in nano-electronics , they can mainly be divided into nanowire electronics , molecule electronics and graphene ( graphene-like ) electronics .

富勒烯新材料具有许多不寻常的特性，在现代科技领域中存在着潜在的应用前景，例如在太阳能电池、光导、分子电子器件、药物以及催化剂等方面。

The new fullerene materials have many unusual features , which show potential applications in the fields of modern technology , such as solar cells , photoconductor , molecular electronic devices , drugs and catalysts .

近年来1,2,4-三唑引起很大的关注，因为它能够与过渡金属离子生成配合物，其中一些配合物具有自旋转换功能，在分子电子器件方面具有广泛的应用前景。

1,2,4-Triazoles have gained considerable attention in recent years . Because they can form complexes with transition-metal ions , and some of them exhibit spin crossover behavior , which can be used potentially to molecular electronic devices .

用电化学方法研究了卵磷脂和氧化胆固醇构成的双层类脂膜与Ca~（2+）和Pb~（2+）的相互作用。从双层类脂膜到生物分子电子器件的研究

The present paper studied the interaction of Ca ~ ( 2 + ) and Pb ~ ( 2 + ) with bilayer lipid membranes ( BLMs ) . The Study of Biomolecular Electronic Devices with Bilayer Lipid Membranes and Related Systems

尽管目前对分子电子器件的研究已经取得了一些重要进展，但关于功能分子在器件中的行为、分子的电子输运机理等一些最基本的问题还缺乏全面深入的认识。

Although significant progress has been made during the last two decades , some most basic issues such as the behavior of the functional molecules working in the circuit and the electron transport mechanism through the molecules are still not very clear .

近年来，分子电子器件（如分子场效应管、分子整流器、分子储存器、分子导线、分子开关和分子马达等）作为下一代电子器件得到了快速的发展。

In recent years , molecular electronic devices ( such as molecular field effect tube , molecular rectifier , molecular memory , molecular wire , molecular switch and molecular motor , etc. ) as the next generation of electronic devices have been rapid development .

本文阐明了继真空器件和半导体器件之后，分子电子器件作为第三代器件将呈现于信息科学之中。这不仅是器件发展趋势所致，也是基于进化求解原理的新一代计算系统发展的需要。

This paper is intented to explain that Molecular Electronic Device ( MED ) as the third generation devices following vacuum valves and semiconductors will take part in information science on accounting of the development not only of devices but also of new computing systems based on evolution principle .

金属纳米线因为在低维物理的基础研究方面的重要性和未来作为分子电子设备器件的应用前景而受到人们的广泛重视。

Metallic nanowires have been intensively studied because of the fundamental interests in low-dimensional physics and technological applications as molecular electronic devices .

在超薄材料制备和表面改性技术，分子、电子器件、转移压印、微型传感器及薄膜光学器件等方面有广阔的应用前景，这方面的研究正方兴未艾。

Through fabricating and modifying surface , it provides a wide application promised in molecular devices , sensors , pattern and optical materials .

解决上述问题的出路之一在于发展分子尺度的电子器件（分子电子器件）。

One of the most promising solutions is to develop molecular-scale electronics ( Molecular electronics ) .

近年来，精密加工技术和自组装技术的进步使得设计分子量级的电子器件成为可能。

In recent years , advances in micro-fabrication and self-assembly techniques have made it possible to design molecular-scale electronic device .

伴随着微电子学实验技术不断改进和理论方法的不断完善，利用单分子构建功能电子器件成为纳米领域的一个热门课题。

With continuous development in experimental techniques of micro-electronics and improvement of theoretical methods , constructing some functional electronic devices based on single molecules becomes a hot research topic .

为了更加准确地模拟分子电子材料在器件中的行为，提出了一种类似于现场的静态理论研究方法。

To simulate the properties of the molecular electronic materials working in electronics more precisely , a more likely in-situ theoretical method by considering the interaction from the external electric field ( EF ) is proposed .