1. Chiral Phosphoric Acids in Metal–Organic Frameworks with Enhanced Acidity and Tunable Catalytic Selectivity.
- Author
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Chen, Xu, Jiang, Hong, Li, Xu, Hou, Bang, Gong, Wei, Wu, Xiaowei, Han, Xing, Zheng, Fanfan, Liu, Yan, Jiang, Jianwen, and Cui, Yong
- Subjects
METAL-organic frameworks ,PHOSPHORIC acid ,ACIDITY ,CATALYSIS ,CONDENSATION - Abstract
Chiral phosphoric acids are incorporated into indium‐based metal–organic frameworks (In‐MOFs) by sterically preventing them from coordination. This concept leads to the synthesis of three chiral porous 3D In‐MOFs with different network topologies constructed from three enantiopure 1,1′‐biphenol‐phosphoric acid derived tetracarboxylate linkers. More importantly, all the uncoordinated phosphoric acid groups are periodically aligned within the channels and display significantly enhanced acidity compared to the non‐immobilized acids. This facilitates the Brønsted acid catalysis of asymmetric condensation/amine addition and imine reduction. The enantioselectivities can be tuned (up to >99 % ee) by varying the substituents to achieve a nearly linear correlation with the concentrations of steric bulky groups in the MOFs. DFT calculations suggest that the framework provides a chiral confined microenvironment that dictates both selectivity and reactivity of chiral MOFs. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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