本文着重介绍了一些相关的生物分子自组装体系,包括葡萄糖氧化酶、类脂、核酸传感器等在金基底表面的自组装。
Recent important program in this field is reviewed in this paper, including self-assembled systems of glucose oxidase, lipid bilayer and nucleic acid sensor.
采用原子力显微镜(afm)和光谱等方法对一些生物有机分子在不同表面的自组装结构进行了研究,主要结果如下:1。
Atomic Force Microscopy (AFM) and spectroscopy have been used to study self-assembly structures of different bioorganic molecules on various substrate, the main results are as follows: 1.
用纳米构造模块自组装、分子对位与交联建构出大生物材料纤维的重要性。
The importance of self-assembly, molecular alignment, and cross-linking in the construction of macroscale biological material filaments from nano-scale building blocks.
利用磷脂自组装膜在分子水平上研究生物分子的结构和性能,在生物学和仿生学方面有重要研究意义。
Self-assembled lipid films provide new insights into the structure-function relationships of biomolecules at the molecular level. It has potential applications in biology and bionics.
本文对在裸电极、 分子自组装修饰电极和模拟生物膜修饰电极上进行蛋白质直接电化学的研究及相关应用进行简要综述。
The recent developments on direct protein electrochemistry at bare electrodes, electrodes decorated with self-assembled monolayers and biomimetic membranes are reviewed.
本文对在裸电极、 分子自组装修饰电极和模拟生物膜修饰电极上进行蛋白质直接电化学的研究及相关应用进行简要综述。
The recent developments on direct protein electrochemistry at bare electrodes, electrodes decorated with self-assembled monolayers and biomimetic membranes are reviewed.
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