Metal–Organic Framework-Derived Strategy for
Improving Catalytic Performance of a Chromia-Based Catalyst in the
Chlorine/Fluorine Exchange Reactions for Unsaturated Fluorocarbons
Hydrofluoroolefins
(HFOs) and cyclic hydrofluorocarbons (c-HFCs)
have been the most favored alternatives of the ozone depletion substances;
however, because of the poor performance of the present chlorine/fluorine
(Cl/F) exchange catalysts, the development and production of HFOs
and c-HFCs are hindered. Here, we first report a novel and facile
route to fabricate high-performance Cl/F exchange catalysts via a
metal–organic framework (MOF) carbonization method. The MOF-derived
catalyst not only has high selectivity but also can significantly
lower the reaction temperature. Moreover, benefiting from the stable
structure and coke-inhibiting ability, the MOF-derived catalyst has
a long service life compared with the traditional precipitation method.
Furthermore, the nanoscopic MOF-derived catalyst can greatly reduce
the Cr dosage, which would help to minimize the risk of Cr contamination.