14.1β一二炭基化合物结构、分类与命名 14.2丙二酸酯及其在有机合成中的应用 (Malonates and the Uses in Organic Synthesis) 14.3乙酰乙酸乙酯及其在有机合成中的应用 (Ethyl Acetoactate and the Use in Organic Synthesis) 14.4其他活泼亚甲基化合物 (Other Active Metylene Compounds) 14.5 Michael加成 14.6有机合成(0 rganic Synthesis) 14.7碳酸衍生物
Department of Earth and Space Sciences, University of California, Los Angeles The unifying theme in this section is the remarkable weakness of major faults. I will consider the diverse new evidence for weakness, and the evidence for high pore pressure localized in faults as a fundamental cause. With this background one can better understand why faults remain active even after large rotations with
least, we should take active and effective measures immediately to fight against pol he desire for happiness is universal lution specially nowadays, the possession of Only on the basis of protecting the happiness is regarded by nearly everyone
Joseph Ford, James Walker, Keith Goossen References: “Silicon modulator based on mechanically-active antireflection layer with 1 Mbit/sec capability” K. Goossen, J. Walker and S. Arney, IEEE Photonics Tech. Lett. 6, p.1119, 1994
1.了解 d 区元素的通性,即 d 电子化学的特征; 2.掌握钛单质、TiO2、TiCl4 的性质和制备,钛合金的应用; 3.掌握铬单质的特性与制备,三价铬与六价铬的转变; 4.了解钼和钨的简单化合物及同多酸、杂多酸的概念; 5.掌握从软锰矿制备单质锰,锰的变价及其氧化性; 6.了解铁、钴、镍氧化还原性变化规律,掌握其氧化物和氢氧化物性质; 7.掌握铜单质及其常见化合物,着重了解其歧化反应; 8.了解锌、镉、汞的单质及重要化合物。 15.1 通性 Ageneral survey 15.10 过渡元素与CO形成的化合物 Compounds of transitional metal with CO 15.2 钛 Titanium 15.3 铬 Chromium 15.4 钼和钨 Molybdnum and tungsten 15.5 锰 Manganese 15.6 铁、钴、镍 Iron, cobalt and nickel 15.7 铜 Copper 15.8 贵金属元素的不活泼性和催化性能 Non-active and catalytical properties for the noble elements 15.9 锌、镉、汞Zinc, cadmium and mercury
