An in situ derived MOF@In 2 S 3 heterojunction stabilizes Co( ii )-salicylaldimine for efficient photocatalytic formic acid dehydrogenation

We report here the hierarchical construction of a molecular Co( ii )-salicylaldimine catalyst and an in situ derived In 2 S 3 semiconductor in a MOF@In 2 S 3 heterojunction through sequentially controllable in situ etching and post-synthetic modification for photocatalytic hydrogen production from f...

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Published in	Chemical communications (Cambridge, England) Vol. 58; no. 51; pp. 7140 - 7143
Main Authors	Zhang, Meijin, Lin, Wenting, Ma, Liang, Pi, Yunhong, Wang, Tiejun
Format	Journal Article
Language	English
Published	England 23.06.2022
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Abstract	We report here the hierarchical construction of a molecular Co( ii )-salicylaldimine catalyst and an in situ derived In 2 S 3 semiconductor in a MOF@In 2 S 3 heterojunction through sequentially controllable in situ etching and post-synthetic modification for photocatalytic hydrogen production from formic acid. The enhanced catalyst stability and facilitated charge carrier mobility between the In 2 S 3 photosensitizers and Co catalyst realize a superior H 2 production rate of 18 746 μmol g −1 h −1 (selectivity > 99.9%) with a turnover number (TON) of up to 6146 in 24 h (apparent quantum efficiency of 3.8% at 420 nm), indicating a 165-fold enhancement over that of the pristine MOF. This work highlights a powerful strategy for synergistic Earth-abundant metal-based MOF photocatalysis in promoting H 2 production from FA.
AbstractList	We report here the hierarchical construction of a molecular Co(II)-salicylaldimine catalyst and an derived In S semiconductor in a MOF@In S heterojunction through sequentially controllable etching and post-synthetic modification for photocatalytic hydrogen production from formic acid. The enhanced catalyst stability and facilitated charge carrier mobility between the In S photosensitizers and Co catalyst realize a superior H production rate of 18 746 μmol g h (selectivity > 99.9%) with a turnover number (TON) of up to 6146 in 24 h (apparent quantum efficiency of 3.8% at 420 nm), indicating a 165-fold enhancement over that of the pristine MOF. This work highlights a powerful strategy for synergistic Earth-abundant metal-based MOF photocatalysis in promoting H production from FA. We report here the hierarchical construction of a molecular Co( ii )-salicylaldimine catalyst and an in situ derived In 2 S 3 semiconductor in a MOF@In 2 S 3 heterojunction through sequentially controllable in situ etching and post-synthetic modification for photocatalytic hydrogen production from formic acid. The enhanced catalyst stability and facilitated charge carrier mobility between the In 2 S 3 photosensitizers and Co catalyst realize a superior H 2 production rate of 18 746 μmol g −1 h −1 (selectivity > 99.9%) with a turnover number (TON) of up to 6146 in 24 h (apparent quantum efficiency of 3.8% at 420 nm), indicating a 165-fold enhancement over that of the pristine MOF. This work highlights a powerful strategy for synergistic Earth-abundant metal-based MOF photocatalysis in promoting H 2 production from FA.
Author	Ma, Liang Lin, Wenting Zhang, Meijin Pi, Yunhong Wang, Tiejun
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Snippet	We report here the hierarchical construction of a molecular Co( ii )-salicylaldimine catalyst and an in situ derived In 2 S 3 semiconductor in a MOF@In 2 S 3... We report here the hierarchical construction of a molecular Co(II)-salicylaldimine catalyst and an derived In S semiconductor in a MOF@In S heterojunction...
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Title	An in situ derived MOF@In 2 S 3 heterojunction stabilizes Co( ii )-salicylaldimine for efficient photocatalytic formic acid dehydrogenation
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