Exploiting non-covalent π interactions for catalyst design

被引:0
|
作者
Andrew J. Neel
Margaret J. Hilton
Matthew S. Sigman
F. Dean Toste
机构
[1] Lawrence Berkeley National Laboratory,Chemical Sciences Division
[2] University of California,Department of Chemistry
[3] University of Utah,Department of Chemistry
[4] † Present address: Department of Process Chemistry,undefined
[5] Merck & Co.,undefined
[6] Inc.,undefined
[7] Rahway,undefined
[8] New Jersey 07065,undefined
[9] USA.,undefined
来源
Nature | 2017年 / 543卷
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摘要
Molecular recognition, binding and catalysis are often mediated by non-covalent interactions involving aromatic functional groups. Although the relative complexity of these so-called π interactions has made them challenging to study, theory and modelling have now reached the stage at which we can explain their physical origins and obtain reliable insight into their effects on molecular binding and chemical transformations. This offers opportunities for the rational manipulation of these complex non-covalent interactions and their direct incorporation into the design of small-molecule catalysts and enzymes.
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页码:637 / 646
页数:9
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