1)研究方向简介

氢能作为一种新型的可再生清洁能源,已被广泛应用于燃料电池和化工行业。传统的热催化制氢需要消耗大量化石燃料,不仅价格高昂,而且二氧化碳排放问题突出;而新型光催化制氢技术利用太阳能和水直接完成氢气制备,价格低廉且可再生性强,若能得到实际应用,则将成为助力我国实现碳中和目标的绿色技术。目前光催化制氢技术的实际应用受制于光催化材料将太阳能转化为高纯度氢气的效率,因此开发具有高转换效率的光催化材料便成为利用光催化制氢的核心任务。针对限制光催化材料效率的科学难题,本课题组围绕光催化水分解制氢、光催化有机合成、光催化生物质高值化转化、光催化塑料再生利用、光催化装置设计和研发、光催化反应机制开展研究。

2)科研项目

光催化水分解耦合生物质高值化转化,国家海外优秀青年基金(2024-2026

光催化水分解制氢耦合小分子高值化转化,深圳市海外高层次人才启动项目(2023-2025


3)科研团队

周鹏 助理教授 pengzhou1209@pku.edu.cn


4)相关成果

1. Peng Zhou et al. Solar-to-hydrogen efficiency of >9% in photocatalytic water splitting. Nature, 2023, 613, 66-70.

2. Peng Zhou et al. Optimizing the semiconductor-metal single atom interaction for efficient photocatalytic reactivity. Nature Reviews Chemistry, 2022, 6, 823-838.

3. Hao Tan†, Peng Zhou† et al. Photocatalysis of water into hydrogen peroxide over an atomic Ga-N5 site. Nature Synthesis 2023, 2, 557–563.

4. Peng Zhou et al. Single-atom Pt-I3 sites on all-inorganic Cs2SnI6 perovskite for efficient photocatalytic hydrogen production. Nature Communications, 2021, 12, 4412.

5. Ji Wu, Peng Zhou* et al. Breaking through water-splitting bottlenecks over carbon nitride with fluorination. Nature Communications, 2022, 13, 6999.

6. Fuyang Liu†, Peng Zhou† et al. Covalent organic frameworks for direct photosynthesis of hydrogen peroxide from water, air and sunlight. Nature Communications, 2023, 14, 4344.

7. Peng Zhou et al. Atomically dispersed Co-P3 on CdS nanorods with electron-rich feature boosts photocatalysis. Advanced Materials, 2019, 32, 1904249.

8. Peng Zhou et al. All-solid-state Z-scheme photocatalytic systems. Advanced Materials, 2014, 26, 4920–4935.

10. Peng Zhou et al. Thermolysis of Noble Metal Nanoparticles into Electron-Rich Phosphorus-Coordinated Noble Metal Single Atoms at Low Temperature. Angewandte Chemie International Edition, 2019, 58,14184–14188.

11. Jiaming Zhang, Peng Zhou,* et al. Anisotropic Charge Migration on Perovskite Oxysulfide for Boosting Photocatalytic Overall Water Splitting. Journal of the American Chemical Society, 2024, 146, 4068-4077.

12. Yuanpeng Wu†, Peng Zhou† et al. Achieving atomically ordered GaN/AlN quantum heterostructures: The role of surface polarity. Proceedings of the National Academy of Sciences 2023, 120 (44), e2303473120.