在基于硅分子水平的电子学中,就涉及到重复应用阻材料来保护被侵蚀的层中需要保护的那部分。
In standard silicon-based electronics, this involves the repeated application of resistive materials to protect those parts of the layer being etched that need to be preserved.
本论文研究单分子层包裹的金纳米粒子间的电子传导机理及其传感应用,主要包括三部分的工作:1。
This dissertation focus on the electronic conducting in monolayer-protected Au nanoparticles as well as the sensing applications, mainly including three parts of work: 1.
分散在高分子介质中的物理显影核层作为影像接受层,是CTP版材的重要组成部分。
The layer of physical development nuclei as a image receiving layer distributed in polymer medium, is one of the important components of CTP plates.
这层膜的大部分是由一个蛋白质,油脂和类脂分子的双分子层构成的。这层膜的内部是多种其它的作为道路和泵的分子将不同的分子运输到细胞内外。
This membrane serves to separate and protect a cell from its surrounding environment and is made mostly from a double layer of proteins and lipids, fat-like molecules.
这层膜的大部分是由一个蛋白质,油脂和类脂分子的双分子层构成的。这层膜的内部是多种其它的作为道路和泵的分子将不同的分子运输到细胞内外。
This membrane serves to separate and protect a cell from its surrounding environment and is made mostly from a double layer of proteins and lipids, fat-like molecules.
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