Biopolymer-Activated Graphitic Carbon Nitride towards a Sustainable Photocathode Material

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作者
Yuanjian Zhang
Zoë Schnepp
Junyu Cao
Shuxin Ouyang
Ying Li
Jinhua Ye
Songqin Liu
机构
[1] School of Chemistry and Chemical Engineering,
[2] Southeast University,undefined
[3] International Center for Young Scientists (ICYS),undefined
[4] Center for Materials Nanoarchitectonics (MANA),undefined
[5] Research Unit for Environmental Remediation Materials,undefined
[6] National Institute for Materials Science (NIMS),undefined
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Scientific Reports | / 3卷
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摘要
Photoelectrochemical (PEC) conversion of solar light into chemical fuels is one of the most promising solutions to the challenge of sustainable energy. Graphitic carbon (IV) nitride polymer (g-CN) is an interesting sustainable photocathode material due to low-cost, visible-light sensitivity and chemical stability up to 500°C in air. However, grain boundary effects and limited active sites greatly hamper g-CN activity. Here, we demonstrate biopolymer-activation of g-CN through simultaneous soft-templating of a sponge-like structure and incorporation of active carbon-dopant sites. This facile approach results in an almost 300% increase in the cathodic PEC activity of g-CN under simulated solar-irradiation.
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