朱敏，博士，教授，制药工程系，毕业于哈尔滨工程大学。

工作内容：教学科研（教学秘书）

通讯地址：齐齐哈尔市文化大街42号化学与化学工程学院中试基地210室

电子邮件：03637@qqhru.edu.cn

研究领域：电催化水分解；尿素电氧化

招生学科：有机化学

教育及科研经历：

2012-2016年 齐齐哈尔大学轻功与纺织学院 本科

2017-2021年 哈尔滨工程大学材料科学与化学工程学院 博士（硕博连读）

2022年至今  齐齐哈尔大学大学化学与化学工程学院学院 教授 硕士生导师

荣誉和奖励

1. 朱敏 2023年党建实践先进个人 齐齐哈尔大学 2023.12.27

2. 朱敏 2024年党建实践先进个人 齐齐哈尔大学 2024.11.27

科研论文

1. M. Zhu, Q. Yan*, Y.Q. Xue, Y.D. Yan, K. Zhu, K. Ye, J. Yan, D.X. Cao, H.J. Xie, G.L. Wang*, Free-standing P-doped NiSe₂/MoSe₂ catalyst for efficient hydrogen evolution in acidic and alkaline media, ACS Sustain. Chem. Eng. 2022, 10: 279-287.

2. M. Zhu, Q. Yan*, X.J. Bai, H. Cai, J. Zhao*, Y.D. Yan, K. Zhu, K. Ye, J. Yan, D.X. Cao, G.L. Wang*, Construction of reduced graphene oxide coupled with CoSe₂-MoSe₂ heterostructure for enhanced electrocatalytic hydrogen production, J. Colloid Interf. Sci. 2022, 608: 922-930.

3. M. Zhu, X.J. Bai, Q. Yan*, Y.D. Yan, K. Zhu, K. Ye, J. Yan, D.X. Cao, X.M. Huang*, G.L. Wang*, Iron molybdenum selenide supported on reduced graphene oxide as an efficient hydrogen electrocatalyst in acidic and alkaline media, J. Colloid Interf. Sci. 2021, 602: 384-393.

4. M. Zhu, D.F. Zhang, Q. Lu, Y.D. Yan, J.L. Yin*, K. Zhu, K. Ye, J. Yan, D.X. Cao, Q. Wang, X.M. Huang, G.L. Wang*, Hollow hexagonal NiSe-Ni₃Ni₂ anchored onto reduced graphene oxide as efficient electrocatalysts for hydrogen evolution in wide-pH range, Int. J. Hydrogen Energy 2021, 46: 20524-20533.

5. M. Zhu, Y.D. Yan, Q. Yan, J.L. Yin*, K. Cheng, K. Ye, K. Zhu, J. Yan, D.X. Cao, G.L. Wang*, In situ growth of Ni_0.85Se on graphene as a robust electrocatalyst for hydrogen evolution reaction, Int. J. Hydrogen Energy 2020, 45: 10486-10493.

6. M. Zhu, Q. Yan, Q. Lu, Y.Q. Xue, Y.D. Yan, J.L. Yin*, K. Zhu, K. Cheng, K. Ye, J. Yan, D.X. Cao, G.L. Wang*, Iron-doped NiSe₂ in-situ grown on graphene as an efficient electrocatalyst for oxygen evolution reaction, J. Electroanal. Chem. 2020, 866: 114134.

7. M. Zhu, J. Sun, Y.Y. Cao, Y.W. Zhang, Z.H. Liu, X.W. Wang*, Self-supporting honeycomb nickel cobalt phosphide on nickel foam as an efficient electrocatalyst for the hydrogen evolution reaction, Energy Fuel. 2022,36: 4895-4901.

8. Y.Q. Xue, X.C. Wang, M. Zhu, Q. Yan*, K. Zhu, K. Cheng, K. Ye, J. Yan, D.X. Cao, G.L. Wang*, Construction of hollow structure cobalt iron selenide polyhedrons for efficient hydrogen evolution reaction, Int. J. Energy Res. 2020, 44: 12045-12055.

9. Y.N. Li, Q. Yan, Y.Z. Wang, Y.J. Li*, M. Zhu, K. Cheng, K. Ye, K. Zhu, J. Yan, D.X. Cao, X.F. Zhang*, G.L. Wang*, Polyaniline coated 3D crosslinked carbon nanosheets for high-energy-density supercapacitors, Appl. Surf. Sci. 2019, 493: 506-513.

10. Q. Yan, X. Chen, T. Wei, G.L. Wang*, M. Zhu, Y.K. Zhuo, K. Cheng, K. Ye, K. Zhu, J. Yan, D.X. Cao, Y.J. Li*, Hierarchical edge-rich nickel phosphide nanosheet arrays as efficient electrocatalysts toward hydrogen evolution in both alkaline and acidic conditions, ACS Sustain. Chem. Eng. 2019, 7: 7804-7811.

11. X.Y. Yang, G.L. Wang*, D.M. Zhang*, H.Q. Zhang, Q. Yan, M. Zhu, K. Ye, K. Zhu, K. Cheng, J. Yan, D.X. Cao, W.Z. Jiao, Y.Z. Liu, Three-demensional Ni-Co-NiCo₂O₄/NF as an efficient electrode for hydrogen evolution reaction, Int. J. Hydrogen Energy 2019, 44: 226-232.

12. Q. Yan, T. Wei, J. Wu, X.Y. Yang, M. Zhu, K. Cheng, K. Ye, K. Zhu, J. Yan, D.X. Cao, G.L. Wang, Y. Pan, Self-supported FeNi?P nanosheets with thin amorphous layers for efficient electrocatalytic water splitting, ACS Sustain. Chem. Eng. 2018, 6: 9640-9648.

13. D.F. Zhang, J.X. Yao, J.L. Yin, G.L. Wang, K. Zhu, J. Yan, D.X. Cao, M. Zhu*, Hierarchical CoNiO₂ microflowers assembled by mesoporous nanosheets as efficient electrocatalysts for hydrogen evolution reaction, Materials. 2023, 16: 2204.

14. D.F. Zhang, J.X. Yao, G.L. Wang, J.L. Yin, K. Zhu*, J. Yan, D.X. Cao, Zhu, M*, Efficient hydrogen evolution catalysts based on hierarchical flowerlike Ni_xCo_9-xS₈ nanosheets, Energy & Fuels. 2023, 37: 8531-8538.

15. G.H. Dong, Q.H. Lv, L.J. Hao, W.Z. Zhang, Z.F. Zhang, D.F. Chai, M Zhu*, M Zhao, J.L. Li, Integration of N, P-doped carbon quantum dots with hydrogel as a solid-phase fluorescent probe for adsorption and detection of Fe³⁺, Nanotechnology. 2023, 34: 465702.

16. X.W. Wang, C. Sun, Y.W. Zhang, W. Xin, X. Jiang, Z.H. Lu, L. Yu, M. Zhu*, L.B. Yang, Discrepancy of alkaline/neutral hydrogen evolution activity from NiCoSe₂/NC and Co-NiSe/NC derived from in-situ thermal and solution processing selenizations of ZIF-67, Int. J. Hydrogen Energy 2024, 49: 1236-1244.

17. C.M. Lv, C. Sun, M. Zhu *, X.Y. Li, X.W. Wang, L.N. Liu, M.R. Yang, Q. Yan, Q. Zhao, M. Zhao, Y.Q. Jiao, Z.C. Shi, One-step construction of Fe_0.5Mo_0.5Se₂ with P doping on carbon cloth for efficient hydrogen evolution in acidic and alkaline media, Int. J. Hydrogen Energy 2024, 51: 413-422.

18. M. Zhu*, P.C. Tang, X.Y. Li, M. Zhao, L.N. Liu, W.X. Tang, Z.H. Xu, G.H. Dong, M.R. Yang, Z.C. Shi, Interface engineering of NiSe₂/FeSe₂ derived from metal-organic framework as a bifunctional catalyst for efficient UOR and OER, Int. J. Hydrogen Energy 2025, 102: 626-634.

19. Q.P. Bao, P.C. Tang, Z. Gong, P.F. Wang*, F.N. Shi, M. Zhu*, High concentrations of sodium dodecylbenzene sulfonate electrolyte additives improve the performance of aqueous zinc ion batteries, Solid State Ionics 2025, 422: 116817.

20. W.J. Song, J.X. Wang, P.C. Tang, Q.P. Bao, L.L. Du, P.F. Wang*, Z. Gong, F.N. Shi, M. Zhu*, Construct wave-like structure on the anode surface for achieving controllable zinc deposition in aqueous zinc-ion batteries, Journal of Energy Storage 2025, 115: 115991.

科研项目

1. 过渡金属基硒化物的电催化水分解析氢性能研究，朱敏，黑龙江省教育厅基本科研业务费，起止年月：202301-202512.