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纳米多孔材料基因组的作用The Nanoporous Materials Genome in Action |
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| 课程网址: | http://videolectures.net/preglov_smit_nanoporous_materials/ |
| 主讲教师: | Berend Smit |
| 开课单位: | 加州大学伯克利分校 |
| 开课时间: | 2018-02-14 |
| 课程语种: | 英语 |
| 中文简介: |  描述 现在,只需在金属有机骨架(MOF)或相关材料的合成中更改构建基块,就可以制造出各种不同的无孔材料。这种独特的化学调节能力使我们能够量身定制最适合给定应用的材料。但是,找到合适材料的承诺似乎遥不可及:由于实际的模仿,我们只能合成,表征和测试所有可能材料的一小部分。因此,为了充分利用这一发展,我们需要开发替代技术(统称为“材料基因组学”),以快速筛选大量材料并获得对于给定应用的理想材料化学性质的基本见识。在本讲座中,我们通过建议如何获得用于气体分离和气体存储的最佳材料来说明这种方法。 |
| 课程简介: | It is now possible to make an enormous spectrum of different nonporous materials simply by changing the building blocks in the synthesis of Metal Organic Frameworks (MOFs) or related materials. This unique chemical tune-ability allows us to tailor-make materials that are optimal for a given application. The promise of finding just the right material seems remote however: because of practical imitations, we can only ever synthesise, characterise and test a tiny fraction of all possible materials. To take full advantage of this development, therefore, we need to develop alternative techniques, collectively referred to as Materials Genomics, to rapidly screen large numbers of materials and obtain fundamental insights into the chemical nature of the ideal material for a given application. In this lecture we illustrate this approach by suggesting how to obtain optimal materials for gas separations and gas storage. |
| 关 键 词: | 纳米多孔材料基因组的作用 |
| 课程来源: | 视频讲座网 |
| 数据采集: | 2020-09-27:zkj |
| 最后编审: | 2021-01-28:nkq |
| 阅读次数: | 25 |