期刊
NATURE COMMUNICATIONS
卷 7, 期 -, 页码 -出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/ncomms10487
关键词
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资金
- 973 Program [2012CB821701]
- NSFC Projects of China [91222201, 21373276, 21573291]
- NSFGP [S2013030013474]
- RFDP of Higher Education [20120171130006]
Absolute chiral environments are rare in regular polyhedral and prismatic architectures, but are achievable from self-assembly of metal-organic cages/containers (MOCs), which endow us with a promising ability to imitate natural organization systems to accomplish stereochemical recognition, catalysis and separation. Here we report a general assembly approach to homochiral MOCs with robust chemical viability suitable for various practical applications. A stepwise process for assembly of enantiopure Delta Delta Delta Delta Delta Delta Delta Delta-and Lambda Lambda Lambda Lambda Lambda Lambda Lambda Lambda-Pd-6(RuL3)(8) MOCs is accomplished by pre-resolution of the D/L-Ru-metalloligand precursors. The obtained Pd-Ru bimetallic MOCs feature in large D-4-symmetric chiral space imposed by the predetermined Ru(II)-octahedral stereoconfigurations, which are substitutionally inert, stable, water-soluble and are capable of encapsulating a dozen guests per cage. Chiral resolution tests reveal diverse host-guest stereoselectivity towards different chiral molecules, which demonstrate enantioseparation ability for atropisomeric compounds with C-2 symmetry. NMR studies indicate a distinctive resolution process depending on guest exchange dynamics, which is differentiable between host-guest diastereomers.
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