电流(流体)
碘
工程伦理学
图书馆学
工程类
计算机科学
化学
有机化学
电气工程
作者
Frithjof C. Küpper,Martin C. Feiters,Berit Olofsson,Tatsuo Kaiho,Shozo Yanagida,Michael Zimmermann,Lucy J. Carpenter,George W. Luther,Zunli Lu,Mats Jönsson,Lars Kloo
标识
DOI:10.1002/anie.201100028
摘要
Iodine was discovered as a novel element in 1811 during the Napoleonic Wars. To celebrate the bicentennial anniversary of this event we reflect on the history and highlight the many facets of iodine research that have evolved since its discovery. Iodine has an impact on many aspects of life on Earth as well as on human civilization. It is accumulated in high concentrations by marine algae, which are the origin of strong iodine fluxes into the coastal atmosphere which influence climatic processes, and dissolved iodine is considered a biophilic element in marine sediments. Iodine is central to thyroid function in vertebrates, with paramount implications for human health. Iodine can exist in a wide range of oxidation states and it features a diverse supramolecular chemistry. Iodine is amenable to several analytical techniques, and iodine compounds have found widespread use in organic synthesis. Elemental iodine is produced on an industrial scale and has found a wide range of applications in innovative materials, including semiconductors--in particular, in solar cells.
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