Controlled
Intercalation and Chemical Exfoliation
of Layered Metal–Organic Frameworks Using a Chemically Labile
Intercalating Agent
- Publication date
- Publisher
Abstract
Creating
ordered two-dimensional (2D) metal–organic framework
(MOF) nanosheets has attracted extensive interest. However, it still
remains a great challenge to synthesize ultrathin 2D MOF nanosheets
with controlled thickness in high yields. In this work, we demonstrate
a novel intercalation and chemical exfoliation approach to obtain
MOF nanosheets from intrinsically layered MOF crystals. This approach
involves two steps: first, layered porphyrinic MOF crystals are intercalated
with 4,4′-dipyridyl disulfide through coordination bonding
with the metal nodes; subsequently, selective cleavage of the disulfide
bond induces exfoliation of the intercalated MOF crystals, leading
to individual freestanding MOF nanosheets. This chemical exfoliation
process can proceed efficiently at room temperature to produce ultrathin
(∼1 nm) 2D MOF nanosheets in ∼57% overall yield. The
obtained ultrathin nanosheets exhibit efficient and far superior heterogeneous
photocatalysis performance compared with the corresponding bulk MOF