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Biopolymer-Activated Graphitic Carbon Nitride towards a Sustainable Photocathode Material

机译：生物聚合物活化石墨碳氮化物对可持续光阴极材料的影响

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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.

机译：将太阳光光化学（PEC）转换为化学燃料是应对可持续能源挑战的最有希望的解决方案之一。石墨碳（IV）氮化物聚合物（g-CN）是一种有趣的可持续光阴极材料，因为它具有低成本，可见光敏感度以及在空气中高达500°C的化学稳定性。但是，晶界效应和有限的活性位点大大阻碍了g-CN的活性。在这里，我们展示了通过海绵状结构的同时软模板化和活性炭掺杂位点的并入，对g-CN进行生物聚合物活化。这种简便的方法可在模拟太阳辐射下使g-CN的阴极PEC活性提高近300％。

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期刊名称 Scientific Reports
作者
Yuanjian Zhang; Zoë Schnepp; Junyu Cao; Shuxin Ouyang; Ying Li; Jinhua Ye; Songqin Liu;
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年(卷),期 -1(3),-1
年度 -1
页码 2163
总页数 5
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1. Biopolymer-Activated Graphitic Carbon Nitride towards a Sustainable Photocathode Material [J] . Yuanjian Zhang, Zo? Schnepp, Junyu Cao, Scientific reports. . 2013,第1期

机译：生物聚合物活化石墨碳氮化物对可持续光阴极材料的影响
2. Novel composites of graphitic carbon nitride and NiO nanosheet arrays as effective photocathodes with enhanced photocurrent performances [J] . Wang Zhonghao, Zou Guojun, Feng Chenchen, RSC Advances . 2016,第86期

机译：石墨碳氮化合物和NIO纳米片阵列的新型复合材料，具有增强的光电流性能的有效光电阴极
3. Metal-Free Photocatalytic Graphitic Carbon Nitride on p-Type Chalcopyrite as a Composite Photocathode for Light-Induced Hydrogen Evolution [J] . Yang Florent, Lublow Michael, Orthmann Steven, ChemSusChem . 2012,第7期

机译：P型黄铜矿上无金属光催化石墨氮化物作为光致氢进化的复合光电阴极
4. Nanostructuring of graphitic carbon nitride as potential and economical electrode materials for supercapacitors [C] . M. Balasubramaniam, S. Balakumar DAE Solid State Physics Symposium . 2020

机译：石墨氮化物作为超级电容器潜力和经济电极材料的纳米结构
5. Chemistry of nanoscale carbon materials: Gas-phase purification of single-wall carbon nanotubes, synthesis of nanoscale carbon nitrides, and nanodiamonds in meteorite carbon with related diamond surface chemistry. [D] . Zimmerman, John Lynn. 2000

机译：纳米碳材料的化学：单壁碳纳米管的气相纯化，陨石碳中纳米碳氮化物和纳米金刚石的合成以及相关的金刚石表面化学。
6. Graphitic Carbon Nitride Doped Copper–Manganese Alloy as High–Performance Electrode Material in Supercapacitor for Energy Storage [O] . Samarjeet Singh Siwal, Qibo Zhang, Changbin Sun, 2020

机译：石墨化氮化碳掺杂铜锰合金作为储能超级电容器中的高性能电极材料
7. Graphitic Carbon Nitride: Host–Guest Recognition on 2D Graphitic Carbon Nitride for Nanosensing (Adv. Mater. Interfaces 23/2019) [O] . Yan Wang, Run Zhang, Zhanying Zhang, 2019

机译：石墨碳氮化物：纳米溶解2D石墨氮化物上的宿主访客识别（ADV。母。接口23/2019）

Biopolymer-Activated Graphitic Carbon Nitride towards a Sustainable Photocathode Material

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