Journal
ADVANCED MATERIALS INTERFACES
Volume 6, Issue 8, Pages -Publisher
WILEY
DOI: 10.1002/admi.201900104
Keywords
frontier molecular orbital theory; nanochannels; nanoconfinement; ordered-assembly reaction; quantum-confined superfluid
Funding
- National Key R&D program of China [2016YFA0200803]
- National Natural Science Foundation of China [51603211, 51673107]
- 111 Project [B14009]
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1D nanoconfined chemical reactions generally exhibit enhanced performance, as a consequence of nanoconfinement, yet the inherent mechanism of this nanoconfinement-enhanced performance remains elusive. Here, the authors' perspectives on 1D nanoconfined chemical reactions are first provided, followed by the 1D nanoconfined preassembled reactions. Then, ultrafast mass transport behaviors in biological and artificial nanochannels are discussed and the quantum-confined superfluid concept is introduced. Inspired by the programmed-assembly reaction in living organisms, a new concept of ordered-assembly reaction is proposed through combining quantum-confined superfluid with frontier molecular orbital theory, to understand the inherent mechanism of high-performance 1D nanoconfined chemical reactions. Finally, the prospective for future development of the ordered-assembly reaction concept is presented.
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