Research on ferrocene derivatives is a hot work in organometallics chemistry, structure chemistry and material science.
二茂铁衍生物是近年来有机金属化学、结构化学和材料科学等学科领域的研究热点。
This thesis is focused on the hydrosilylation of ferrocenylsilanes, expecting to solve the problem of migration of ferrocene derivatives as combustion catalyst in solid propellant.
本文以研究二茂铁硅烷的硅氢化反应作为重点,以期通过硅氢化反应来解决二茂铁衍生物作为燃速催化剂在固体推进剂中的迁移问题。
Understanding the structures of ferrocene and its derivatives, their properties and spectroscopic characteristics.
了解二茂铁及其衍生物的结构,图谱特征及性质等。
Recent progress has demonstrated that ferrocene and its derivatives modified electrodes are mainly applied in fields of electrocatalysis, electroanalysis and biosensor.
二茂铁及其衍生物修饰电极在电催化、电分析和生物传感器等方面具有重要的应用前景。
The relationship between structure and rotatory direction of 1, 2-disubstituted ferrocene and its derivatives is analyzed based on the helix theory proposed by the authors.
根据笔者所提出的螺旋理论,对1,2 -二取代二茂铁及其衍生物的结构与旋光方向间的关系进行了分析。
Ferrocene and its derivatives have strong anti-cancer activity. At present, they have been used widely in the field of pharmaceutical synthesis and clinical applications.
二茂铁及其衍生物均具有较强的抗癌活性,目前已被广泛地应用于药物合成及临床应用上。
Ferrocene and its derivatives are a class of important organometallic compounds and widely used in the field of material science, bio-medical chemistry, asymmetric catalysis.
二茂铁及其衍生物作为一类重要的金属有机化合物,广泛应用于材料科学、生物医药、不对称催化等相关领域。
The applications in the additive, catalysis, medicine, electrochemistry, LCD materials, photosensitive materials, magnets and the latest progress on ferrocene and its derivatives were introduced.
综述了二茂铁及其衍生物在燃料添加剂、催化剂、医学、电化学、液晶材料、感光材料、以及二茂铁磁体等方面的应用和最新研究进展。
It shows that ferrocene and its derivatives have a wonderful future in the field of liquid crystal display and others research areas.
表明它们在液晶领域以及其他方面必将拥有广阔的应用前景。
It shows that ferrocene and its derivatives have a wonderful future in the field of liquid crystal display and others research areas.
表明它们在液晶领域以及其他方面必将拥有广阔的应用前景。
应用推荐