Google Scholar:

https://scholar.google.com/citations?hl=zh-CN&user=WO7RumMAAAAJ 

Selected papers：

1.Zeng, W., Mei, W., He, X., Wang, J., Fang, Z., Zhou, J., Zheng, T., Duan, Q.*, Sun, J., Wang, Q. (2026). Insights into the coupled thermal behavior of silicon/graphite composite anodes in high energy density lithium-ion battery. Energy Storage Materials, 84, 104841

2.Jiang, G., Jiang, Y., Duan, Q.*, Zhang, S., Xiao, H., Jin, K., & Sun, J.* (2025). Origin of self-ignition in transient release of pressurized hydrogen into a rectangular tube: Flow visualization and numerical research. Combustion and Flame, 280, 114361.

3.Jiang, G., Jiang, Y., Duan, Q.*, Zhang, S., Xiao, H., Jin, K., & Sun, J.* (2025). Effect of tube wall geometry on self-ignition patterns and consequent flame propagation following pressurized hydrogen transient release. Proceedings of the Combustion Institute, 41, 105979.

4.Li, Y., Mei, W.*, Yu, Y., Liu, C., Zhang, Y., Zhuo, P., Chen, Y., Sun, J., Jin, K., Wang, Q. & Duan, Q.* (2025). Revealing the self-ignition mechanism of lithium iron phosphate battery modules: the coupling effect of battery inconsistency and BMS failure. eTransportation, 100484.

5.He, X., Li, Z., Liu, Y., Wang, H., Tian, J., Mei, W., Duan, P., Wang, Q., Sun, J. & Duan, Q.* (2025). Unveiling the thermal degradation mechanisms of co-free Ni-rich cathode: A comparative study of LiNi0. 9Mn0. 1O2 versus LiNi0. 8Co0. 1Mn0. 1O2 from macroscopic behavior to atomic-scale bonding. Chemical Engineering Journal, 169673.

6.Duan, Q.#*, Zeng, Q.#, Tang, J., Zhang, S., & Sun, J.* (2025). Dynamic mechanisms of high-pressure hydrogen self-ignition and flame evolution in obstructed tubes: Experimental insights and implications. Fire Safety Journal, 151, 104295.

7.Duan, Q.#*, Xin, J.#, Zhang, H., Hou, Z., Duan, P., Jin, K., Li, M. & Sun, J.* (2025). Hydrogen leakage in underground garages: Impact of leakage locations on gas diffusion and safety considerations. Journal of Energy Storage, 117, 116123.

8.Duan, Q.#*, Xin, J.#, Zhang, H., Hou, Z., Duan, P., Jin, K., & Sun, J.* (2024). Experimental and numerical studies on hydrogen leakage and dispersion in underground parking garages: Impact of leakage direction on safety considerations. Safety Science, 180, 106643.

9.Tian, J., Mei, W., Tang, J., Wang, H., Wang, L., Wang, Q., Sun, J. & Duan, Q.* (2024). Numerical study on heat dissipation and structure optimization of immersed liquid cooling mode used in 280Ah LiFePO4 batteries. Process Safety and Environmental Protection, 185, 446-457.

10.Tang, J., Jiang, G., Zhang, S., Zeng, Q., Tian, J., Jin, K., Sun, J. & Duan, Q.* (2024). Effects of internal intervention in tubes on shock wave attenuation, formation and propagation of flame during high-pressure hydrogen release. Process Safety and Environmental Protection, 192, 313-320.

11.Duan, Q.*, Wu, Y., Jiang, G., Tang, J., Zeng, Q., Zhang, S., Jin, K., Chen, J. & Sun, J.* (2023). Experimental investigation on the shock wave and spontaneous ignition of high-pressure hydrogen released into a tube through different narrowness inlets. International Journal of Hydrogen Energy, 48(85), 33346-33357.

12.Fang, Z., Duan, Q.*, Peng, Q., Wei, Z., Jiang, L., Sun, J., & Wang, Q. (2023). A sustainable delamination method to completely separate spent cathode foils via biomass-derived γ-valerolactone. Green Chemistry, 25(4), 1546-1558.

13.Duan, Q.*, Cao, H., Li, X., & Sun, J.* (2023). Effects of urea on the thermal decomposition behavior of ammonium nitrate: A reliable thermal safety performance enhancer. Process Safety and Environmental Protection, 171, 482-492.

14.Duan, Q.*, Tang, J., Jin, K., Zeng, Q., Wu, Y., Zhang, S., Wang, Q., & Sun, J.* (2022). Experimental investigation of shock wave propagation, spontaneous ignition, and flame development of high-pressure hydrogen release through tubes with different obstacles arrangements. International Journal of Hydrogen Energy, 47(89), 38075-38086. .

15.Duan, Q., Zeng, Q., Jin, K., Wang, Q., & Sun, J.* (2022). Mechanism of self-ignition and flame propagation during high-pressure hydrogen release through a rectangular tube. Process Safety and Environmental Protection, 164, 283-290.

16.Zeng, Q., Duan, Q.*, Jin, K., Zhu, M., & Sun, J. (2022). Effects of nitrogen addition on the shock-induced ignition of high-pressure hydrogen release through a rectangular tube of 400 mm in length. Fuel, 308, 122016.

17.Wu, D.*, Tan, X., Wei, A., Duan, Q.*, Huang, W., & Schmidt, M.* (2021). Ignition temperature and mechanism of carbonaceous dust clouds: The roles of volatile matter, CH4 addition, O2 mole fraction and diluent gas. Journal of Hazardous Materials, 405, 124189.

18.Huang, Z., Li, X., Wang, Q., Duan, Q.*, Li, Y., Li, L., & Wang, Q.* (2021). Experimental investigation on thermal runaway propagation of large format lithium ion battery modules with two cathodes. International Journal of Heat and Mass Transfer, 172, 121077.

19.Cao, H., Li, X., Jin, K., Duan, Q.*, Chai, H., & Sun, J.* (2021). Experimental and theoretical study of the effect of typical halides on thermal decomposition products and energy release of ammonium nitrate based on microcalorimetry and FTIR. Chemical Engineering Journal, 410, 128405.

20.Gong, L., Li, Z., Jin, K., Gao, Y., Duan, Q.*, Zhang, Y., & Sun, J.* (2020). Numerical study on the mechanism of spontaneous ignition of high-pressure hydrogen during its sudden release into a tube. Safety Science, 129, 104807.

21.Zeng, Q., Duan, Q.*, Sun, D., Li, P., Zhu, M., Wang, Q., & Sun, J.* (2020). Experimental study of methane addition effect on shock wave propagation, self-ignition and flame development during high-pressure hydrogen sudden discharge from a tube. Fuel, 277, 118217.

22.Chai, H., Duan, Q.*, Cao, H., Li, M., & Sun, J.* (2020). Effects of nitrogen content on pyrolysis behavior of nitrocellulose. Fuel, 264, 116853.

23.Cao, H., Jiang, L., Duan, Q.*, Zhang, D., Chen, H., & Sun, J.* (2019). An experimental and theoretical study of optimized selection and model reconstruction for ammonium nitrate pyrolysis. Journal of Hazardous Materials, 364, 539-547.

24.Duan, Q., Xiao, H., Gong, L., Li, P., Zeng, Q., Gao, W., & Sun, J.* (2019). Experimental study of shock wave propagation and its influence on the spontaneous ignition during high-pressure hydrogen release through a tube. International Journal of Hydrogen Energy, 44(40), 22598-22607.

25.Duan, Q., Xiao, H., Gong, L., Jin, K., Gao, W., Chai, H., & Sun, J.* (2018). Experimental study on spontaneous ignition and subsequent flame development caused by high-pressure hydrogen release: coupled effects of tube dimensions and burst pressure. Fire Safety Journal, 97, 44-53.

26.Duan, Q., Zhang, F., Xiong, T., Wang, Q., Xiao, H., Wang, Q., Gao, W., Gong, L., Jin, K., & Sun, J.* (2017). Experimental study of spontaneous ignition and non-premixed turbulent combustion behavior following pressurized hydrogen release through a tube with local enlargement. Journal of Loss Prevention in the Process Industries, 49, 814-821.

27.Duan, Q., Xiao, H., Gao, W., Gong, L., Wang, Q., & Sun, J.* (2016). Experimental study on spontaneous ignition and flame propagation of high-pressure hydrogen release via a tube into air. Fuel, 181, 811-819.

28.Duan, Q., Xiao, H., Gao, W., Gong, L., & Sun, J.* (2016). Experimental investigation of spontaneous ignition and flame propagation at pressurized hydrogen release through tubes with varying cross-section. Journal of Hazardous Materials, 320, 18-26.

29.Duan, Q., Xiao, H., Gao, W., Shen, X., Wang, Q., & Sun, J.* (2015). Experimental investigation on shock waves generated by pressurized gas release through a tube. Journal of Loss Prevention in the Process Industries, 36, 39-44.

30.Duan, Q., Xiao, H., Gao, W., Wang, Q., Shen, X., Jiang, L., & Sun, J.* (2015). An experimental study on shock waves and spontaneous ignition produced by pressurized hydrogen release through a tube into atmosphere. International Journal of Hydrogen Energy, 40(25), 8281-8289.