武汉大学弘毅特聘教授、博士生和硕士生指导教师，从事面向资源与能源可持续利用的绿色电化学技术的教学和科研工作（含材料与冶金电化学、能源与环境电化学、腐蚀与表面电化学），在熔盐电解低碳冶金技术、熔盐CO2捕集与电化学转化技术、新能源系统战略资源绿色回收利用、面向电解工程应用的高性能电极材料等方面取得系列创新性成果，发表论文300余篇，获授权发明专利50余项。

https://orcid.org/0000-0003-2364-8718  

https://www.researchgate.net/profile/Dihua-Wang/research

代表论文：

1. 尹华意, 邓博文, 杜开发, 李威, 高帅波, 石昊, 汪的华, 面向碳中和的高温熔盐电化学技术. (2023) 科学通报，第 68 卷 第 30 期: 3998 ~ 4014

2. Du, K., Gao, E., Zhang, C., Ma, Y., Wang, P., Yu, R., ... & Wang, D. (2023). An iron-base oxygen-evolution electrode for high-temperature electrolyzers. Nature Communications, 14(1), 253.

3. Wang, P., Du, K., Yin, H., & Wang, D. (2023). Enhancing oxide scale growth and adhesion via electrochemically regulating ion diffusion. Journal of Materials Science & Technology, 158, 133-144.

4. Yang, Z., Deng, B., Hu, L., Du, K., Yin, H., & Wang, D. (2023). Selective CO2 Electroreduction with Enhanced Oxygen Evolution Efficiency in Affordable Borate-Mediated Molten Electrolyte. ACS Energy Letters, 8(4), 1762-1771.

5. Wang, F., Li, P., Li, W., & Wang, D. (2022). Electrochemical synthesis of multidimensional nanostructured silicon as a negative electrode material for lithium-ion battery. ACS nano, 16(5), 7689-7700.

6. Li, P., Wan, X., Su, J., Liu, W., Guo, Y., Yin, H., & Wang, D. (2022). A single-phase FeCoNiMnMo high-entropy alloy oxygen evolution anode working in alkaline solution for over 1000 h. ACS Catalysis, 12(19), 11667-11674.

7. Liu, W., Wang, X., Wang, F., Du, K., Zhang, Z., Guo, Y., ... & Wang, D. (2021). A durable and pH-universal self-standing MoC–Mo2C heterojunction electrode for efficient hydrogen evolution reaction. Nature Communications, 12(1), 6776.

8. Li, W., Ma, Y., Li, P., Jing, X., Jiang, K., & Wang, D. (2021). Electrochemically Activated Cu2–xTe as an Ultraflat Discharge Plateau, Low Reaction Potential, and Stable Anode Material for Aqueous Zn‐Ion Half and Full Batteries. Advanced Energy Materials, 11(42), 2102607.

9. Yu, R., Xiang, J., Du, K., Deng, B., Chen, D., Yin, H., ... & Wang, D. (2021). Electrochemical growth of high-strength carbon nanocoils in molten carbonates. Nano Letters, 22(1), 97-104.

10. Huang, J., Wang, P., Li, P., Yin, H., & Wang, D. (2021). Regulating electrolytic Fe0. 5CoNiCuZnx high entropy alloy electrodes for oxygen evolution reactions in alkaline solution. Journal of Materials Science & Technology, 93, 110-118.

11. Yang, J., Wang, W., Yang, H., & Wang, D. (2020). One-pot compositional and structural regeneration of degraded LiCoO 2 for directly reusing it as a high-performance lithium-ion battery cathode. Green Chemistry, 22(19), 6489-6496.

12. Jiang, R., Gao, M., Mao, X., & Wang, D. (2019). Advancements and potentials of molten salt CO2 capture and electrochemical transformation (MSCC-ET) process. Current Opinion in Electrochemistry, 17, 38-46.

13. Gao, M., Deng, B., Chen, Z., Tao, M., & Wang, D. (2018). Cathodic reaction kinetics for CO2 capture and utilization in molten carbonates at mild temperatures. Electrochemistry Communications, 88, 79-82.

14. Chen, Z., Deng, B., Du, K., Mao, X., Zhu, H., Xiao, W., & Wang, D. (2017). Flue‐Gas‐Derived Sulfur‐Doped Carbon with Enhanced Capacitance. Advanced Sustainable Systems, 1(6), 1700047.

15. Cheng, X., Fan, L., Yin, H., Liu, L., Du, K., & Wang, D. (2016). High-temperature oxidation behavior of Ni-11Fe-10Cu alloy: Growth of a protective oxide scale. Corrosion Science, 112, 54-62.

16. Lu, B., Xiao, Z., Zhu, H., Xiao, W., Wu, W., & Wang, D. (2015). Enhanced capacitive properties of commercial activated carbon by re-activation in molten carbonates. Journal of Power Sources, 298, 74-82.

17. Yin, H., Lu, B., Xu, Y., Tang, D., Mao, X., Xiao, W., .Wang D. & Alshawabkeh, A. N. (2014). Harvesting capacitive carbon by carbonization of waste biomass in molten salts. Environmental Science & Technology, 48(14), 8101-8108.

18. Yin, H., Mao, X., Tang, D., Xiao, W., Xing, L., Zhu, H., Wang D.. & Sadoway, D. R. (2013). Capture and electrochemical conversion of CO 2 to value-added carbon and oxygen by molten salt electrolysis. Energy & Environmental Science, 6(5), 1538-1545.

新闻报道：

https://news.whu.edu.cn/info/1015/460677.htm （ 汪的华/尹华意教授课题组在退役光伏组件清洁回收方面取得新进展）
https://m.hbtv.com.cn/p/4448807.html  
https://news.whu.edu.cn/info/1015/68946.htm （《自然·通讯》发表汪的华/尹华意课题组熔盐电解低成本析氧阳极领域研究进展）                                  

https://news.whu.edu.cn/info/1015/66025.htm （武大学者研制出长寿命高性能低成本电解水产氢电极）

https://news.whu.edu.cn/info/1015/443177.htm （汪的华团队产业化项目成功入选“碳寻计划”TOP30）

https://news.whu.edu.cn/info/1002/60752.htm （学科碰撞 探索前沿 追求卓越，100余位学者带来跨学科饕餮盛宴）

https://news.whu.edu.cn/info/1002/47598.htm （对好导师的礼敬和祝福—第七届“我心目中的好导师”颁奖典礼记））

https://news.whu.edu.cn/info/1002/40311.htm （熔盐电化学研究获新突破）

https://www.chemistryworld.com/news/new-way-to-produce-heavy-rare-earth-metals/3002889.article