molecular device

Electronic transport properties of molecular device analysis using quantum chemistry software

利用量子化学软件分析分子器件上的电子输运性质

Theoretical Study of Molecular Device and Universal Device Model

分子器件及通用分子器件模型（UDM）的理论研究

The important development direction of device is molecular device .

纳米器件的一个重要发展方向是分子电子学器件。

A new type of molecular device & molecular motors

新型分子器件&分子马达

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

分子电子器件简化模型的电子透射谱的计算

SPICE Model of Three - Terminal Molecular Device

三端分子电子器件通用模型

It is found that the structure and electronic properties of the molecular device have been modified .

研究发现氟原子基团的引入调整了分子器件的结构和电子特性。

It shows that the electric current of the molecular device decreases with the increase of molecular length and torsion .

研究表明：随着分子长度的增加和扭转角度的增大使得电流减小。

Molecular device of new pull-push electro-optical polymer intermediates with second-order NLO properties

新推拉型电光聚合物中间体的二阶NLO性质的分子设计研究

Biomembrane-Mimetic Film for Molecular Device Applications

以分子器件为背景的仿生功能膜

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

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。

Binary Subtractor Based on Polyphenylene Molecular Device

基于聚亚苯基分子器件的二进制减法器

They found the antibodies using a novel molecular device they developed that homes in on the specific cells that make antibodies against HIV .

他们使用自己研发的分子装置发现了这些抗体，在特定细胞上这些抗体抵御HIV。

Monomeric enzyme , oligomeric enzyme , multienzyme system and enzymatic molecular device are ideal model supramolecules .

单体酶、寡聚酶、多酶体系和酶分子机器是理想的天然模型超分子。

Finally , the rectification principle of this molecular device and the conditions for selecting the suitable molecules to construct the molecular device are discussed .

并在此基础上讨论了该分子器件的整流原理及筛选适于制作分子整流器件的分子的条件。

Functional material modified Solid-Supported Bilayer Membrane ( s-BLM ) has the great potential of being biosensor and molecular device .

功能修饰的人造固体支撑双分子层膜（s-BLM）具有发展成为生物传感器件和分子器件的巨大潜力，而新型材料的选择是s-BLM膜走向实际应用的关键。

Photoelectronic and Spectroscopic Properties of Bilayer Lipid Membrane ( BLM ) incorporated with Fullerenes : A New Molecular Device

富勒烯修饰双分子层脂膜分子器件光电了与光谱学特性研究

In essence speaking that the molecule is different from the semiconductor , therefore we can foresee the molecular device to possess a lot of specific properties .

从本质上来讲，分子不同于半导体纳米结构，因此，可以预见分子器件具有很多独特的输运特性。

It displays unique property as a molecular device for the system consisting of the rigid σ bridge , in which the electron donor and acceptor chromophores are linked by the bridge .

电子的受、供体由具有刚性σ碳骨架的桥体连接组成的体系在分子器件的设计中表现出了独特的性质。

In recent years , the rapid progresses in micro-fabrication and self-assembly tech-niques have made it possible to control the molecules in nanoscale and to assemble them as the molecular device .

近年来，随着微观操控技术和微观组装技术的快速发展，人们可以在纳米尺度操控单个分子并将其制造成具有特定功能的分子器件。

Due to its special structure and excellent physical chemical properties , the polypyrrole as one kind of conducting polymers has attracted great interests in many fields , such as energy storage , molecular device and metal corrosion .

导电高分子聚吡咯因其特殊的结构和物理化学性能在能源储存、分子器件及金属防腐等多个领域倍受关注。

The Tight-Binding Method is adopted to investigate the I-V characteristics of a three-terminal single-benzene molecular device , with the results well reflecting the electrical characteristics of MOS ( Metal-Oxide-Semiconductor ) devices .

采用紧束缚近似法对由单苯基分子构成的三端器件的IV特性进行了研究，所得结果近似表现出了MOS（MetalOxideSemiconductor）器件的电学规律；

We find that the electronic transport properties of the molecular device are greatly influenced by its position relative to the AGNRs electrodes , which are attributed to the especial Bloch states of AGNRs .

结果表明，分子器件的电子输运性质与其相对于AGNRs电极的位置有极大的关系，这主要是由于AGNRs具有特殊的布洛赫态分布。

The development course of molecular device is described in this paper . The research advancement of fullerene-derivative in molecular wire , molecular switch and molecular memory is summarized , and prospect for progress on molecular device is given too .

介绍了富勒烯衍生物分子器件在分子导线，分子开关和分子储存器的研究进展，展望了分子器件发展前景。

The results show that the humidity has a great effect on electronic transport properties and its instability . It is found that different humidity may form varied localized potential barrier , which is a very important factor to affect the stability of electronic transport in the molecular device .

研究结果表明湿度对纳米电子器件的输运性质及稳定性都有很大的影响。进一步研究发现，输运性质的不稳定性主要根源于H2O分子与碳纳米管电极之间形成的局域势垒。

A New Molecular Rectifier Device and Some Research in Its Processing

一种分子整流器件及其工艺研究

Progress in Research on Molecular Rectification Device of Carbon Nanotube

纳米碳管分子整流器件的研究进展

Application of Predictive Control to Molecular Sieve Device

预测控制在分子筛装置中的应用

Yellow Organic Small Molecular Electroluminescent Device on Flexible Substrate

柔性衬底黄光有机小分子电致发光器件

The Spin-crossover Phenomena and Molecular Electronic Device

自旋交叉配合现象与分子电子器件