2025

29. Hongxin Hong, Yiwen Hu, Cansen Liu, Chenyu Wang, Sixian Chen, Zhiyu Zeng, Cangshu Yan, Hao Wu*(2025)，Constant-current water-tube triboelectric energy harvester for low-frequency rotational energy harvesting，Chemical Engineering Journal, https://doi.org/10.1016/j.cej.2025.161340

2024

28. Yong Hong Liufu, Chi K. Tse, Guiyuan Yang, Yining Liao, Hongjian Lin*, Dong Dai, Han Lin, Hongxin Hong, Hao Wu, Xuexia Zhang (2024), Achieving Ultrahigh Efficiency of Triboelectric Nanogenerator Energy Harvesting Systems via Hybrid Electronic-Spark Power Management, Advanced Functional Materials,  2415338

27. Cangshu Yan, Saihua Jiang, Yuchun Wang, Junrui Deng, Xinpeng Wang, Zidian Chen, Tianle Chen, Huamao Huang, Hao Wu*(2024),A wearable sign language translation device utilizing silicone-hydrogel hybrid triboelectric sensor arrays and machine learning,Nano Energy,133,110425

26. Hongxin Hong, Tianle Chen,  Jianjun Yang,  Yiwen Hu,  Jinteng Hu,  Dongsheng Li, Farong Liu, Liqiang Liu, Hao Wu* (2024),Omnidirectional Water Wave Energy Harvesting by Spherical Triboelectric Nanogenerator with Sliced Pizza-shaped Electrodes, Cell Reports Physical Science, 5 (5),101933.( Featured in CRPS as "Best of 2024" )

25. Hao Wu, Huanxi Zheng, Xuezhi Oin, Yuankai Jin, Yang Li, Siyan Yang, Zhiran Yi, Shouwei Gao, Steven Wang, Zuankai Wang* (2024)，Drinking Bird-enabled Triboelectric Hydrovoltaic Generator. Device , 2 (5),100318.

2023

24.  K Zhu, H Jiang*, GF Chen*, H Wu, LX Ding, H Wang*（2023），Simultaneous electrosynthesis of nitrate and hydrogen by integrating ammonia oxidation and water reduction，Chinese Journal of Catalysis, 55, 216-226

23. H Dong, S Jiang*, H Wu, Y Wang, X Zhong, H Jiang, X Qian, C Shi* (2023), One‐Stop Fabrication of Flexible Sensors Based on Aqueous Printable Triboelectric Layer‐Electrode Integrated Ink with Enhanced Heat‐Resistance, Advanced Materials Technologies，8 (22), 2301022

22. Miaomiao Cui, Yawei Feng, Hao Wu, Yuankai Jin, Wanbo Li, Zuankai Wang*（2023), Low-frequency blue energy harvesting for sustainable and active anticorrosion，Nano Research，16 (9), 11871-11877 2

21. H. Zheng#, H.Wu#, Z. Yi#, Y. Song, W. Xu, X. Yan, X. Zhou, S. Wang, Z. Wang* (2023) Remote-Controlled Droplet Chains-Based Electricity Generators. Advanced Energy Materials. 13, 2203825

Before 2022

20. Fu, J., Xu, G., Wu, H., Li, C., & Zi, Y. (2022). Liquid‐Interfaces‐Based Triboelectric Nanogenerator: An Emerging Power Generation Method from Liquid‐Energy Nexus. Advanced Energy and Sustainability Research, 2200051.

19. Wu, H., Wang, S., Wang, Z., & Zi, Y. (2021). Achieving ultrahigh instantaneous power density of 10 MW/m2 by leveraging the opposite-charge-enhanced transistor-like triboelectric nanogenerator (OCT-TENG). Nature Communications, 12, 5407

18. Yang, G.#, Wu, H.#*, Li, Y., Wang, D., Song, Y., Zhou, Y., ... & Zhou, G. (2021). Direct ink writing of fluoropolymer/CNT-based superhydrophobic and corrosion-resistant electrodes for droplet energy harvesters and self-powered electronic skins. Nano Energy, 86, 106095.

17. Wu, H., Wang, Z., & Zi, Y. (2021). Multi‐mode water‐tube‐based triboelectric nanogenerator designed for low‐frequency energy harvesting with ultrahigh volumetric charge density. Advanced Energy Materials, 11(16), 2100038.

16. Mendel, N., Wu, H., & Mugele, F. (2021). Electrowetting‐assisted generation of ultrastable high charge densities in composite silicon oxide–fluoropolymer electret samples for electric nanogenerators. Advanced Functional materials, 31(11), 2007872.

15.Wu, H., Chen, Z., Xu, G., Xu, J., Wang, Z., & Zi, Y. (2020). Fully biodegradable water droplet energy harvester based on leaves of living plants. ACS Applied Materials & Interfaces, 12(50), 56060-56067.

14. Wu, H.*, Mendel, N., van Der Ham, S., Shui, L., Zhou, G., & Mugele, F. (2020). Charge Trapping‐Based Electricity Generator (CTEG): an ultrarobust and high efficiency nanogenerator for energy harvesting from water droplets. Advanced Materials, 32(33), 2001699.

13. Wu, H.*, Mendel, N., van den Ende, D., Zhou, G., & Mugele, F. (2020). Energy harvesting from drops impacting onto charged surfaces. Physical Review Letters, 125(7), 078301.

12. Wu, H.*, Dey, R., Siretanu, I., van den Ende, D., Shui, L., Zhou, G., & Mugele, F. (2020). Electrically controlled localized charge trapping at amorphous fluoropolymer–electrolyte interfaces. Small, 16(2), 1905726.

11.  Uzundal, C. B., Sahin, O., Gokturk, P. A., Wu, H., Mugele, F., Ulgut, B., & Suzer, S. (2019). X-ray Photoelectron Spectroscopy with Electrical Modulation Can Be Used to Probe Electrical Properties of Liquids and Their Interfaces at Different Stages. Langmuir, 35(52), 16989-16999.

10.  Niu, R., Jin, M., Cao, J., Yan, Z., Gao, J., Wu, H., ... & Shui, L. (2019). Self-healing flexible conductive film by repairing defects via flowable liquid metal droplets. Micromachines, 10(2), 113.

9.  Wu, H., Shui, L., Li, F., Hayes, R., Henzen, A., Mugele, F., & Zhou, G. (2019). Large-area high-contrast hydrophobic/hydrophilic patterned surface for robust electrowetting devices. ACS Applied Nano Materials, 2(2), 1018-1026.

9.  Wu, H., Li, H., Umar, A., Wang, Y., & Zhou, G. (2018). Bifunction-integrated dielectric nanolayers of fluoropolymers with electrowetting effects. Materials, 11(12), 2474.

8.  Wu, H., Hayes, R. A., Li, F., Henzen, A., Shui, L., & Zhou, G. (2018). Influence of fluoropolymer surface wettability on electrowetting display performance. Displays, 53, 47-53.

7.  Wu, H., Tang, B., Hayes, R. A., Dou, Y., Guo, Y., Jiang, H., & Zhou, G. (2016). Coating and patterning functional materials for large area electrofluidic arrays. Materials, 9(8), 707.

6. 何涛, 金名亮, 窦盈莹, 吴昊, 周国富, & 水玲玲. (2016). 一种电润湿显示彩色油墨的性能研究. 华南师范大学学报: 自然科学版, 48(2), 40-45.

5. 韦必明, 金名亮, 吴昊, 窦盈莹, 周国富, & 水玲玲. (2015). 大面积光刻胶线棒涂布工艺研究. 华南师范大学学报 (自然科学版), 47(2), 84-89.

4.   Gong, J. J., Chen, J. P., Zhang, F., Wu, H., Qin, M. H., Zeng, M., ... & Liu, J. M. (2015). Tailoring the structural and magnetic properties of Cu-doped ZnO by±bc-axis pressure. Chinese Physics B, 24(3), 037505.

3. 李显歌, 白鹏飞, 水玲玲, 吴昊,窦盈莹, 郭媛媛, & 周国富. (2015). Teflon AF1600 作为电润湿显示器件疏水绝缘层的可靠性研究. 华南师范大学学报: 自然科学版, 47(2), 17-20.

2.   Zhang, F., Lin, Y. B., Wu, H., Miao, Q., Gong, J. J., Chen, J. P., ... & Liu, J. M. (2013). Asymmetric reversible diode-like resistive switching behaviors in ferroelectric BaTiO3 thin films. Chinese Physics B, 23(2), 027702.

1.   Wu, H., Lin, Y. B., Gong, J. J., Zhang, F., Zeng, M., Qin, M. H., ... & Liu, J. M. (2013). Significant enhancements of dielectric and magnetic properties in Bi (Fe1− xMgx) O3− x/2 induced by oxygen vacancies. Journal of Physics D: Applied Physics, 46(14), 145001.