However, the preparation of the sensitive film, i. e. the immobilization of biomolecules is the key technique.
但传感器的敏感膜的制备即生物分子的固定化技术仍然是研制性能优良的传感器的关键。
参考来源 - 酶生物传感器及酶联荧光免疫技术的研究Because AFM not only can obtain surface topography of biomolecules on nanometer and molecule level, but also can study interactions between biomolecules under the near physiological condition.
因为原子力显微镜不仅能够在纳米尺度、分子水平上获得生物分子的表面形貌信息,而且可以在近生理条件下研究生物分子相互作用。
参考来源 - 原子力显微镜用于核酸相互作用的研究AFM is currently applied in the research of the structure and function, at the nanometric scale, of various tissues, cells, microbes and biomolecules, and studies of the interaction between two biomolecules as well as the manipulation of some biological processes.
目前国际上AFM主要应用于组织、细胞微生物、生物大分子纳米水平形态结构功能研究及生物单分子相互作用、生物过程操纵调控等研究领域。
参考来源 - 原子力显微镜在生命科学研究中的应用·2,447,543篇论文数据,部分数据来源于NoteExpress
The bio-structure consisted of bio-molecules in vivo are always in scale of optical sub-wavelength.
亚光学波长尺度的生物分子基本单元的研究都令人关注。
This paper consists of the following parts: preparation of monolithic polymer column, investigation of polymerization conditions and its application to bio-molecules.
本文结合本研究室的工作,对有机聚合物整体柱的制备条件以及该柱对生物大分子的应用作一概述。
This review summarizes applications of ILS in extractions of metal ions, organic compounds, bio-molecules, desulfurization or denitrogenation from fuels and gases and so on.
本文综述离子液体萃取金属离子、 有机化合物、 生物分子, 脱硫,脱氮及气体分离等的最近研究进展。
应用推荐