当这进行到终点时,我们将进入第六种模式,即三维自组织分子电路。
When that comes to an end we'll go to the sixth paradigm, three-dimensional self-organizing molecular circuits.
从本质上讲,细胞可以被视作利用分子、离子、蛋白质和DNA,而非电子和晶体管的电路。
Essentially, cells may be viewed as circuits that use molecules, ions, proteins and DNA instead of electrons and transistors.
虽然纳米金属丝尚属试验阶段,但是在未来他们绝对会成为环境和健康探测器上某一微小电路或者其他分子机器。
While nanowires are still in an experimental stage, they may one day be used to link extremely small circuits in environmental and health sensors or other molecular machines.
研究与特定行为有关的电路,已经揭示了许多为了适应环境必会发生的细胞和分子上的变化。
Studying circuits involved in a particular behavior has revealed much about the cellular and molecular changes that must occur in order to interpret the environment.
这种分子仅仅出现几天并且似乎在加强着维持痛苦记忆的大脑电路。
That molecule remained for only a few days and appeared to strengthen the brain circuit responsible for maintaining the fearful memory.
戴维斯和欧阳说,只要10至12个主题里的样本就足够使分子绘图和电路绘图系统高度可靠,即使是对第一次使用的人来说。
Davis and Ouyang say that samples from only 10 or 12 subjects were enough to make both the molecular-sketch and circuit-diagram systems highly reliable, even for first-time users.
这个过程还可以让纳米管分子自动地沿着棉纤维的轴向排列,这种排列方式可以让电路更加畅通。
The process also encouraged the nanotubes to arrange themselves along the axis of the cotton fibres, which increased electrical connectivity.
主要障碍仍然反映我们的分子动力学参数非常简单化的理解,以及监管这些信号通路电路的复杂性。
Major hurdles still reflect our very simplistic understanding of both the kinetic parameters of the molecules involved as well as the complexity of the regulatory circuits of these signaling pathways.
而 IBM正在研究 如何将数据存储到单个原子上,以及如何用单个分子来 建造电路。
IBM is working on technology that will store data in individual atoms and build circuits out of a single molecule.
该公司托马斯·沃森研究中心的物理学家造出全世界第一个以纳米管(一个长长的碳分子)为原料的逻辑电路。
Watson Research Center, built the world's first logic circuit out of a single long carbon molecule called a nanotube.
本文提出了将磁脉冲压缩开关结合LC反转倍压电路应用于高重复率紧凑型准分子激光器的技术。
In this paper a magnetic pulse compressor (MPC) combined with LC inversion circuit applied in compact excimer laser has been put forward.
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。
And molecular electronics is considered as a promising solution to replace silicon base electronics to construct smaller molecular integrated circuits.
着重分析了现阶段利用碳纳米管大量研制分子元器件及纳米电路所面临的困难,并对碳纳米管整流器件的应用前景作了展望。
Current difficulties of using nanotubes to make molecular elements and nanocircuits on large-scale are emphatically analyzed, and potential applications of nanotube rectifiers are suggested.
热解后,废弃印刷电路板中的有机树脂降解成小分子的石油产品,同时与无机惰性组分的分离。
Pyrolysis, discarded printed circuit boards in the degradation of organic resin into small molecules of petroleum products, and at the same time inorganic inert component of the separation.
氢燃料电池在催化剂作用下,氢分子解离为氢质子并释放出电子,电子在外电路形成直流电输出电能。
The hydrogen molecule is decomposed into hydrogen proton and set free electron under acting on catalyst. And free electron is formed DC in external circuit to output electric energy.
本文介绍的是一种以高分子聚合物为主体材料的新型湿敏电阻元件,并对其工作原理、特点、技术参数、应用电路及制作方法作了具体阐述。
A new type humidity sensitive resistor of which main material is high-polymer film is presented in details by its principle of operation, performance, applied circuit and manufacture process.
对高分子湿敏电容元件进行了研究,设计了一种廉价湿度开关电路。
A low cost electronics circuit ior humidity switches based on high polymer humidity sensitive capacitors is presented in this paper.
因此对一个元件设计者而言非常不容易预测及厘 清单电子电晶体及分子电晶体的穿隧电流,从而 使得奈米元件电路难以成真。
Consequently, it is hard for designers to predict and clarify the tunneling current of SETs (MTs), making the realization of nano- device circuit extremely difficult.
电路板基板材料主要以高分子树脂为主,是典型的黏弹性材料。
Main materials of printed circuit board (PCB) substrate were macromolecule resins, which were typical viscoelatic materials.
在此之前,为了获得新的电路结构,研究人员都是采用大分子制造单颗的晶体管。
Previously, researchers tried to use large molecules as individual transistors to create a new kind of electronic circuits.
在此之前,为了获得新的电路结构,研究人员都是采用大分子制造单颗的晶体管。
Previously, researchers tried to use large molecules as individual transistors to create a new kind of electronic circuits.
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