Therefore, if DNA is a conductor, it will be the ideal material for nano-line and molecular electronics.
因此,如果DNA具有导电性,将是纳米导线及分子器件的理想材料。
Molecular electronic technique is a newly developed bionic technology on the basis of molecular electronics in 1970's.
分子电子技术是以分子作为载体,在分子水平上实现电子学的信息处理和存储过程的仿生技术。
And molecular electronics is considered as a promising solution to replace silicon base electronics to construct smaller molecular integrated circuits.
而分子电子学有望作为一种解决的方案,替代硅电子学来构建更小的分子集成电路。
How to reach the ultimate miniaturization limit of molecular electronics and related nanoscale patterning techniques of organic materials will also be discussed.
亦将讨论如何达到分子电子学和有机材质相关的纳米级制像技术的微缩极限。
The chemistry of the organic monolayer is not critical; the switch works with many different molecules and so can be used with many different self-assembled molecular electronics systems.
——这种有机单分子层的化学性并不是临界的;开关与许多不同的分子一道起作用,开关也能与许多不同的自我组装分子电子系统一块使用。
The new progress of molecular electronics and molecular electronic device was introduced together with the potential development and application of this rapidly-growing field in future.
介绍了分子电子学与分子器件研究领域的最新进展,展望了分子电子学的发展前景,提出了一些新的想法和建。
This paper reviews the study and application of metalloporphyrins in molecular electronics, such as molecular memory, molecular recognition, picture sensors, biosensors and chemical sensors.
综述了金属卟啉在分子电子学,如分子存储、分子识别、图象传感、生物传感和化学传感等方面的研究及应用。
It is the modern high technology that promote the foundation of molecular electronic, which is a cross-discipline involved with chemistry, physics, biology, material science and electronics.
近代高新技术的成就促进了分子电子学这门涉及化学、物理、生物、材料科学及电子工程学的交叉学科的建立。
Metal-organic complexes have a wide range of applications, due to their special properties in electronics, optics, magnetics, selective catalysis and molecular recognition.
配位化合物由于在电子、光学、磁化学、选择性催化和分子识别等方面具有特殊性能而在诸多领域具有广阔的应用前景。
This synergy between electronics and biology has resulted in a positive impact of electronic technologies to system, cell, and molecular biology.
此电子和生物学之间的协同作用导致了电子技术的系统,细胞和分子生物学产生积极的影响。
The polymer with nonlinear optical activity will become a kind of basic molecular nonlinear optical materials and will be firstly applied in the photo electronics and engineering in the 21st century.
具有非线性光学活性的有机聚合物材料被认为是一类能最新得到实际应用的、可望成为21世纪光电子学科学和工程的基础的分子非线性光学材料。
The polymer with nonlinear optical activity will become a kind of basic molecular nonlinear optical materials and will be firstly applied in the photo electronics and engineering in the 21st century.
具有非线性光学活性的有机聚合物材料被认为是一类能最新得到实际应用的、可望成为21世纪光电子学科学和工程的基础的分子非线性光学材料。
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