这些元素建立了“单原子分子、不反应”的特性。
我们已经可以使计算机在单碘分子和由几种原子组成的晶体管上运行,那么为什么不利用微小的DNA链来创建电子部件呢?
We’ve got computers that run on a single iodine molecule and transistors made of just a handful of atoms, so why not create electronic components out of tiny strands of DNA?
在先前的研究中得到其原子水平上的结构,精确的结构特性允许他们用激光脉冲瞄准目标分子,并且只持续千万一份之一秒以使分子处以单电子自旋状态。
That precise characterization allowed them to target molecules with laser pulses lasting for one-quadrillionth of a second, or just long enough to set single electrons spinning.
随着原子力显微镜的诞生,使高分子单链的界面研究成为可能。
With the emersion of atomic force microscope, the study of single macromolecular chain at interfaces becomes possible.
我要说的是,在能级图的帮助下,可以解释氦气是单原子气体,而不是分子气体这一事实,那么这个呢?
I would say with the aid of an energy level diagram explain the fact that helium is found as atomic gas and not molecular. How about this one?
而且纳米技术一词涉及与单原子或单分子作用更多的意义。
Further, the term nanotechnology refers to more than working with a lone atom or single molecule.
单原子或者分子,由很多很小的原子组成。
We have either single atoms or molecules consisting of small numbers of atoms.
单分子力谱是基于原子力显微镜力的测量方法。
Single molecule force spectroscopy (SMFS) is a force measurement based on AFM.
基于在DNA单分子定位切割和拾取方面的实验进展,提出了一种基于原子力显微镜纳米操纵技术的单分子有序化测序策略。
Thus an ordered sequencing strategy is proposed based on the experimental advancements in positioning dissection and isolation of single DNA molecules with AFM nanomanipulation.
概述了近年来利用基于原子力显微镜的单分子力谱研究单个高分子分子内及分子间作用力的进展。
A review is given on the development of single molecule polymer force studies by AFM-based SMFS in recent years.
本文介绍了金属原子在烷基硫醇自组装单分子膜表面的再沉积行为,从理论上分析了其作用机理,归纳出了金属在自组装单层膜表面的再沉积规律。
In this paper, using alkanethiol self_assembled monolayers (SAMs) on gold as model interface, the behavior of deposited metal on SAMs surface and the interaction mechanism were analyzed.
用改进的PPP-CI方法计算染料分子的跃迁能和电荷密度,结果表明,茚苯胺染料的光退色速率与染料分子中某些原子上的电荷密度有关,单重态氧可能在光退色过程中起着重要作用。
The transition energies and charge densities of dye molecules are calculated by modify PPP-CI method. The results show that the photofading rates are closely related to the charge densities ons…
原子力显微镜(afm)从根本上改变了人们对单个原子和分子的作用和认识方式。单分子力谱是基于原子力显微镜力的测量方法。
Atomic force microscopy (AFM) has provided a new and powerful tool in the investigation of single atoms, molecules and their interactions.
本文介绍了金属原子在 烷基硫醇自组装单分子膜表面的再沉积行为,从理论上分析了其作用机理,归纳出了金属在自组装单层膜表面的再沉积规律。
In this paper, using alkanethiol self_assembled monolayers (SAMs) on gold as model interface, the behavior of deposited metal on SAMs surface and the interaction mechanism were analyzed.
本文介绍了金属原子在 烷基硫醇自组装单分子膜表面的再沉积行为,从理论上分析了其作用机理,归纳出了金属在自组装单层膜表面的再沉积规律。
In this paper, using alkanethiol self_assembled monolayers (SAMs) on gold as model interface, the behavior of deposited metal on SAMs surface and the interaction mechanism were analyzed.
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