固态化学-化学与物理和材料科学的结合Solid-state chemistry - where chemistry meets physics and materials science |
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课程网址: | http://videolectures.net/kolokviji_dronskowski_science/ |
主讲教师: | Richard Dronskowski |
开课单位: | 亚琛大学 |
开课时间: | 2012-02-27 |
课程语种: | 英语 |
中文简介: | 现代(理论)固体化学是一门非常迷人的学科,它涉及许多科学领域。首先,我将介绍密度泛函计算如何为固体的纯理论(第一原理)吉布斯能量数据铺平道路,这是理解和优化实际感兴趣的材料(例如高温超导体)所需的。这种理论方法在预测目前纯学术兴趣的不存在化合物时也极为有用,这些化合物被高压金属过氮化物很好地利用,这类化合物仍然是一种非常年轻的固态相。同样,所谓的碳二亚胺是众所周知的氧化物的氮类似物,因为在这里氧化物阴离子已经被异叶形碳二亚胺阴离子取代,非常符合“二价氮化物”物种的精神;注意,这些相也只有通过理论推理才有可能。整个系列的过渡金属碳二亚胺(作为化学上不太有趣的氧化物)表现出意想不到的性质,如铁磁性和类似自旋液体的行为。最后,最近人们预测并合成了含胍类化合物(生物化学上极其重要的组成部分),它们对应于众所周知的碳酸盐的氮类似物。很明显,胍类化合物的晶体结构很大程度上依赖于氢键网络,这通常需要从第一性原理计算中获得理论洞察力。 |
课程简介: | Modern (theoretical) solid-state chemistry is a most fascinating discipline in that it touches upon many scientific fields. To start with, I will cover how density-functional calculations may pave the way to purely theoretical (first-principles) Gibbs energy data for solids, very much needed to understand and optimize materials of practical interest, e.g., high-temperature superconductors. Such theoretical approaches are also extremely useful when it comes to pre-dicting non-existent compounds of – at the present time – purely academic interest, nicely ex-emplified by high-pressure metal pernitrides, still a very young class of solid-state phases. Likewise, so-called carbodiimides are the nitrogen-analogues of the well-known oxides be-cause here the oxide anion has been replaced by the isolobal carbodiimide anion, very much in the spirit of a “divalent nitride” species; note that such phases have also been made possible only by theoretical reasoning. The entire series of the transition-metal carbodiimides (as op-posed to the chemically less interesting oxides) exhibits unexpected properties such as ferro-magnetism and spin-liquid-like behavior. Finally, salt-like compounds containing the guani-dine species, a biochemically extremely important building block, have recently been predicted and synthesized, and they correspond to the nitrogen analogues of the well-known carbonates. It is clear that the crystal structures of the guanidinates heavily depend on the H-bond network, which often demands theoretical insight from first-principles computations. |
关 键 词: | 固态化学; 材料科学; 物理 |
课程来源: | 视频讲座网 |
数据采集: | 2020-11-29:yxd |
最后编审: | 2020-11-29:yxd |
阅读次数: | 80 |