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W4311763677 abstract "Along with the widespread utilization of hydrogen energy, the rise of highly active hydrogen evolution electrocatalysts with affordable costs presently becomes a substantial crux of this emerging domain. In this work, we demonstrate a feasible and convenient in situ seed-induced growth strategy for the construction of small-sized FeSe2 nanoparticles decorated on two-dimensional (2D) superthin Ti3C2Tx MXene sheets (FeSe2/Ti3C2Tx) through a manipulated bottom-up synthetic procedure. By virtue of the distinctive 0D/2D heterostructures, abundant exposed surface area, well-distributed FeSe2 catalytic centers, strong surface electronic coupling, and high electrical conductivity, the resultant FeSe2/Ti3C2Tx nanoarchitectures are endowed with a superior electrocatalytic hydrogen evolution capacity including a competitive onset potential of 89 mV, a favorable Tafel slope of 78 mV dec–1, and a long-period stability, significantly better than that of the pristine FeSe2 and Ti3C2Tx catalysts." @default.
W4311763677 created "2022-12-28" @default.
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W4311763677 date "2022-12-14" @default.
W4311763677 modified "2023-10-14" @default.
W4311763677 title "MXene Nanosheets Induce Efficient Iron Selenide Active Sites to Boost the Electrocatalytic Hydrogen Evolution Reaction" @default.
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W4311763677 doi "https://doi.org/10.1021/acs.inorgchem.2c03666" @default.
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