教职员工

王晓丹副研究员
研究方向:光电化学(PEC)制氢、光伏电解(PV-EC)制氢
研究组:分布式供能系统研究组
联系邮箱:wangxd2@shanghaitech.edu.cn
电话:021-20685717
办公地点:

个人简历 研究领域 代表性论文或成果

  • 王晓丹博士,副研究员,太阳能光电能源实验室负责人。上海市海外高层次人才、浦江人才、明珠菁英人才、中澳清洁能源领袖计划获得者。曾2012年获国家留学基金委公派奖学金赴德国布伦瑞克工业大学攻读半导体技术博士学位,师从Andreas Waag 教授,毕业后加入欧洲最大的应用科学研究机构-德国弗劳恩霍夫研究所,开展研究员的工作。长期从事新型纳米半导体材料的制备及其在太阳能转化与储存领域的应用研究,相关成果以第一/通讯作者身份已发表于Materials Science & Engineering: R, Advanced Energy Materials, Small, Chemical Engineering Journal等期刊,申请发明专利4项,以封面一作出版论著2部,其中1部已被大英图书馆(The British Library)收录。现主持国家自然科学基金面上项目、上海市白玉兰人才计划浦江项目(A类)等项目。曾主持参与了德国国家项目10余项,并曾为德国博世、亥姆霍兹柏林能源与材料研究中心等10多家科研院所及企业提供技术支持。任国家自然科学基金委评审专家、上海市科技专家;以及Nano-Micro Letters、Carbon Neutrality青年编委、Exploration科学编辑、Engineering Science编委等。

  • 新型纳米半导体光阳极

    太阳能转化与储存:光电化学(PEC)制氢、光伏电解(PV-EC)制氢、染料敏化太阳能电池

    光电(化学)能量转换过程机理研究:光生载流子动力学

    可控、实用氢化技术在纳米电子器件、可再生能源等领域的应用


  • 1. X. Wang1*, et al., Hydrogenated Metal Oxide Semiconductors for Photoelectrochemical Water Splitting: Recent Advances and Future Prospects, Materials Science and Engineering: R: Reports 163, 100918, 2025. 

    2. X. Wang*, et al., CuO/M(OH) (M = Mg, Ca) Heterostructures with In-Situ Oxygen Vacancies Enable Room-Temperature Ultrahigh Triethylamine Sensing. Chemical Engineering Journal 521, 167104, 2025.

    3. X. Wang1, et al. Emerging Hydrogenated Semiconductor Materials: Synthesis, Properties and Applications, Cambridge Scholars Publishing, 2024. (be included in the British Library's collection) (Book)

    4. X. Wang1, et al., Facile and Efficient Atomic Hydrogenation Enabled Black TiO2 with Enhanced Photoelectrochemical Performance via a Favorably Low Energy Barrier Pathway, Advanced Energy Materials 9, 1900725, 2019.

    5. X. Wang1*, et al., Low-Energy Hydrogen Ions Enable Efficient Room-Temperature and Rapid Plasma Hydrogenation of TiO2 Nanorods for Enhanced Photoelectrochemical Activity, Small 18, 2204136, 2022.

    6. X. Wang*, et al., Design and Impact Assessment of Policies to Overcome Oversupply in China's National Carbon Market. Journal of Environmental Management 354, 120388, 2024.

    7. X. Wang1*, et al., Advanced Hydrogenation Technologies for Photoelectrochemical Hydrogen Production in the book Revolutionizing Energy Conversion Photoelectrochemical Technologies and Their Role in SustainabilityIntechOpen Publisher, 2024. (Book chapter)

    8. X. Wang*, Dynamic Rollout Plan of China National Carbon Emissions Trading Scheme: A CGE-Based Analysis, FinTech and Sustainable Innovation, 2025: 1-14.

    9. X. Wang, Tuning the Photoelectrochemical Functionality of Core-Shell H-doped Titania Nanorods by Hydrogen Surface Engineering. Verlag Dr. Hut, München. 2018. (Book)

    10. X. Wang1, et al., Black TiO2 Material for Highly Efficient Green Hydrogen Production Enabled by Advanced Surface Engineering in the book Hydrogen Technologies - Recent Advances, New Perspectives and Application, IntechOpen Publisher, 2024. (Book chapter)

    11. X. Wang1*, et al., Enhanced Photoelectrochemical Behavior of H-TiO2 Nanorods Hydrogenated by Controlled and Local Rapid Thermal Annealing, Nanoscale Research Letters 12, 336, 2017.

    专利:

    1. 一种均匀大面积无损氢化半导体材料的制备方法、装置及应用, 申请号:202410250450X

    2. 一种低能氢等离子体常温制备氢化半导体材料的方法、装置及应用, 申请号:2024102504707

    3. 氢化石墨烯的构建及在气体传感器的应用, 申请号:202411103176X

    4. 一种基于硅烷偶联剂改善金属-半导体接触的方法和应用,申请号:202511625593.5