職稱：教授

博導/碩導：博士生導師

學科專業： 材料化學

研究方向： 能源化工

聯系方式： [email protected]

顏學敏，1979年11月生，博士，教授，博士生導師，beat365院長，湖北省優秀青年骨干人才，中國化工學會理事，湖北省化學化工學會煤化工專業委員會主任委員、催化專業委員會委員，《化學與生物工程》理事會常務理事。主要從事能源化工、應用化學等方面的研究與推廣工作。承擔了國家自然科學基金、湖北省自然科學基金、中石油創新基金、湖北省教育廳基金、荊州市科技局及中石油、中石化委托項目30余項，在Chem. Eng. J., Fuel，J. Power Sources., Mol. Catal.等雜志上發表論文105篇，獲湖北省科技進步一等獎2項、中國石油與化學工業聯合會二等獎2項，出版專著一本。先后主講《納米科學及技術》、《科技論文寫作》及《提高采收率原理》等課程。  

●1997.09—2001.07 武漢科技大學，化學工程，學士

●2001.09—2004.07 武漢理工大學，材料學，碩士

●2004.09—2007.06 武漢理工大學，材料物理與化學，博士

●2007.07—至今   長江大學，beat365，教授

●2014.06—2015.01 University of Strathclyde，化工系，訪問學者

主要研究項目

●國家自然科學基金面上項目（52374029）：基于表界面調控策略的稠油低溫催化氧化降黏體系構建及降黏機制研究， 2024.1-2027.12，主持

●國家自然科學基金面上項目（51472034）：介觀結構多酸-二氧化鈦納米材料的可控合成及相關性能研究， 2015.1-2018.12，主持

●國家自然科學基金青年項目（21106008）：雜多酸基復合介孔材料的設計、合成及其選擇氧化脫硫催化性能研究， 2012.1-2014.12，主持

●中石油創新基金（2013D-5006-0405）：多級孔道雜多酸催化劑制備及氧化脫硫性能研究，2013.7-2015.7，主持

●湖北省自然科學基金項目（2011CDB007）：雜多酸復合介孔材料選擇催化氧化脫硫性能及機理研究，   2012.1-2013.12，主持

代表性成果

（1）獲獎情況

●Gemini表面活性劑技術研究及應用，湖北省科技進步一等獎，2015J-234-1-033-010-R15

●油田改善注水與逐級深部調驅用化學劑及其應用，石油和化學工業聯合會科技進步二等獎，2014JBR0659-2-3  

●低滲透油田提高采收率技術研究與應用，湖北省科技進步一等獎，2010J-230-1-037-006-R10

●低滲透油田儲層改造及改善水驅效果技術研究，石油和化學工業聯合會科技進步二等獎，2010JBR0290-2-10

（2）學術論文

1. Zhang CY, Zhong XM, Chen P, Sun SJ,   Jiang Y, Yan,   XM*. Facile synthesis of   porous graphite by calcium carbide and nitrogen gas for lithium-ion batteries.   Journal of energy storage 2023, 66, 107386.

2. Zhang ZJ, Wang ZS, Zhang H, Wang QJ,   Tang YQ, Qu Q, Shen LW, Mi YZ*, Yan   XM*.   An ionic liquid demulsifier with double cationic centers and multiple   hydrophobic chains. Journal of molecular liquids 2023, 374,121265.

3. Yan XM, Tu YK, Yuan HC, Xia YY, Jiang Y, Zhu   SH, Li CH, Tang HL, Du P, Lei M. Experimental and theoretical insights into   cobalt nanoparticles encapsulated in N- and S-codoped carbon as advanced   bifunctional electrocatalyst for rechargeable zinc-air batteries. Advanced   Composites And Hybrid Materials 2023, 6(2), 71.

4. Tian FY*, Zhu MZ, Sun XB, Yan XM*. Self-Assembled Zn1-x O/TiO2   Nanocomposite as a Novel p-n Heterojunction for Selective CO2-to-CO   Photoreduction. Acs applied nano materials 2023, DOI10.1021/acsanm.3c02958.

5. Ye F, Zhang XY, Jiang XB, Liu HJ, Tang YQ,   Qu Q, Shen LW, Zhang ZJ, Mi YZ*, Yan XM*. Demulsification of crude oil   emulsions using a three-branched betaine type ionic liquid and its   demulsification mechanism. Geoenergy Science and Engineering 2023,   230, 212265.

6. Tu YK, Shi YB, Yan XM*, Jiang Y, Xiao W, Zhu SH, Lv P, Li CH* Synthesis   and catalytic mechanism for NiS/NiS2/NC nanoparticles towards oxygen   reduction reaction and oxygen evolution reaction. Electrochimica acta   2023, 470, 143346.

7. Tian FY*, Wu XY, Chen JH, Sun XB, Yan XM*, Liao GF. One-step photodeposition of   spatially separated CuOx and MnOx dual cocatalysts on g-C3N4 for enhanced CO2   photoreduction. Dalton transactions, 2023, 52, 34, 11934-11940.

8. Ding F., Liu HJ., Jiang XB., Jiang Y.,   Cheng JS, Tu YK., Xiao W., Li CH. *, Yan XM.*. Bimetallic zeolite imidazolium   framework derived multiphase Co/HNC as pH-universal catalysts with efficient   oxygen reduction performance for microbial fuel cells. Electrochimica Acta 2023, 438,   DOI10.1016/j.electacta.2022.141548

9. Zhang ZJ., Wang ZS., Wang QJ., Zhang   H., Tang YQ., Qu Qi., Shen LW., Xiang D., Mi YZ., Yan XM.*，Synthesis of a   multi-branched trinuclear ionic liquid demulsiffer and evaluation of its   performance in W/O emulsions. Fuel 2023, 338, 127188.

10. Deng SY.,   Li H., Chen BH., Xu ZJ., Jiang Y.*,   Li CH., Xiao W., Yan   XM.*，High   performance of Mn-doped VO2 cathode for aqueous zinc-ion batteries: an   insight into Zn2+ storage mechanism, Chemical Engineering   Journal. 2023, 452，139115.

11. Tian FY, Wu XY, Liu S, Gu YW, Lin ZZ,   Zhang HL*,   Yan XM*,   Liao GF*. Boosting photocatalytic H2 evolution through interfacial   manipulation on a lotus seedpod shaped Cu2O/g-C3N4 p-n heterojunction. Sustainable   energy & fuels, 2023, 7, 3, 786-796.

12. Yang HY, Wang CL, Qiang R, Wang LX, Yan XM*. Influence of Oxygen-Containing   Functional Groups on Asphaltene Self-Diffusion Coefficient in   Asphaltene-Xylene Systems. China Petroleum Processing and Petrochemical   Technology, 2022, 24, 4, 98-107.

13. Xiong P., Yang HY.,   Wu PY., Liao YQ.,   Tan DC.,   Ma ZF., Yan   XM.* Study on catalytic aquathermolysis of heavy oil   by simple synthesis of highly dispersed nickel-loaded nitrogen-doped carbon   catalysts. Molecular Catalysis, 2022, 529, 112528.

14. Ye F, Jiang XB, Liu HJ, Ai GS, Shen LW, Yang Y,   Feng XN, Yuan HK, Zhang ZJ, Mi YZ, Yan XM.* Amine functional   cellulose derived from wastepaper toward oily wastewater treatment and its   demulsification mechanism. Journal of Molecular Liquids, 2022, 360,   119459.

15. Chen   NK, Ma ZF, Li H, Guan XY, Huang DJ, Yan XM.* Asphalt-based carbon boosts the cyclability   and rate capability of SiOC anode for high-performance lithium ion batteries.   Ionics, 2022，28 (9) , pp.4177-4184

16. Ding   F., Liu HJ., Jiang XB., Jiang Y., Tu YK., Xiao W., Yan XM.*, Li   CH. *. Co9S8 nanoparticles encapsulated in N, S co-doped hierarchical carbon   as an efficient oxygen reduction electrocatalyst for microbial fuel cells. J.   Electroanal. Chem., 2022, 909: 116130.

17. Li   H., Huang ZX.， Chen BH.， Jiang Y.， Li CH.， Xiao W.，Yan XM.*, A high-performance MnO2   cathode doped with group Ⅷ metal for aqueous Zn-ion   batteries: In-situ X-Ray diffraction study on Zn2+ storage mechanism. J.   Power Sources, 2022, 527: 231198.

18. Ye   F., Wang G., Ao YL., Shen LW., Yang Y., Feng XN., Zhang ZJ., Yuan HK., Mi YZ*,   Yan XM.* Recyclable amine-functionalized carbon nanotubes   for the separation of oily wastewater. Chemosphere. 2021,288,132571.

19. Deng SY., Jiang Y., Huang DJ., Ma ZF., Li CH.,   Xiao W., Yan XM.* Driving intercalation kinetic through   hydrated Na+ insertion in V2O5 for high rate performance aqueous zinc ion   batteries. Journal of Alloys and Compounds, 2021, 891, 161946.

20. Li CH.,   Cheng   JS., Jiang   Y. , W.   Xiao, Yan   XM.* Electronic structure regulation and electrocatalytic   mechanism of one-dimensional mesoporous La0.8Sr0.2Mn1-xCoxO3 with   bifunctional electrocatalysts towards Zn-air batteries. J. Power Sources,   2021, 498: 229940.

21. Li CH., Cheng JS.,   Jiang Y., Xiao W., Yan XM.*, Synthesis and enhanced electrocatalytic   mechanism of mesoporous La0.8Sr0.2MnO3 nanowires as high-active   electrocatalysts for Zn-air batteries, Applied Surface Science, 2021, 538: 148015.

22. Huang QS., Li CH., Tu YK., Jiang Y., Mei P., Yan XM.*, Spinel   CoFe2O4 /carbon nanotube composites as efficient bifunctional   electrocatalysts for oxygen reduction and oxygen evolution reaction,   Ceramics International, 2021，47 (2), 1602-1608.

23. Han WL., Li CH., Jiang Y., Ma ZF., Zhang Y., Yan XM.*,  Zheng XF., Atomically-dispersed   Fe-Nx and C–S–C ordered mesoporous carbons as efficient catalysts for   the oxygen reduction reaction in a microbial fuel cell, Journal of Alloys and Compounds, 2021, 852, 156994

24. Li H., Yan XM.*, Ma ZF., Zhang Y., Li CH., Xiao W., Jiang Y.,   Silicon oxycarbide-carbon hybrid nanofibers: a promising anode for   ultralong-cycle lithium ion batteries with high rate capability, Ceramics   International, 2021，47 (5)，6867-6874.

25. Ye F, Mi   YZ*, Liu HY, Zeng GX, Shen LW, Feng XN, Yang Y, Zhang ZJ, Yuan HK, Yan XM.* Demulsification   of water-in-crude oil emulsion using natural lotus leaf treated via a simple   hydrothermal process. Fuel. 2021, 295, 120596.

26. Chen TR., Yan XM.*, Ma   ZF., Zhang Y., Zheng XF., Jiang Y., A general method to synthesize a MoC/C   composite material with potential application as an anodic material in   lithium-ion batteries. Ionics, 2020,26(10), 4869-4875.

27. Chen M., Jiang   Y., Mei P., Zhang Y., Zheng, XF., Xiao W., You, QL., Yan XM.*, Tang HL. Polyacrylamide   Microspheres-Derived Fe3C@N-doped Carbon Nanospheres as Efficient Catalyst   for Oxygen Reduction Reaction, Polymers, 2019, 11, 767.

28. Huang   Y., Jiang Y., Ma ZF., Zhang Y., Zheng XF., Yan XM.*, Deng XQ.,  Xiao W., Tang HL. Seaweed-Liked   WS2/rGO Enabling Ultralong Cycling Life and Enhanced Rate Capability for   Lithium-Ion Batteries. Nanomaterials, 2019, 9, 469.

29. Jiang Y., Yan   XM.*, Cheng YP., Zhang Y.,  Xiao W.,  Gan L.,  Tang HL., A   general method to fabricate MoO3/C composites and porous C for asymmetric   solid-state supercapacitors. RSC Advances, 2019, 9, 13207-13213.

30. Jiang Y., Yan   XM.*, Ma ZF., Mei P.,   Xiao W., You, QL., Zhang Y., Development of the PEO Based Solid   Polymer Electrolytes for All-Solid State Lithium Ion Batteries, Polymers,   2018, 10, 1237-1249.

31. Jiang Y., Yan XM.*, Mei P., Zhang Y., Xiao   W., Tang HL., Electrochemical reconstruction induced high   electrochemical performance of Co3O4/reduced graphene oxide for lithium ion batteries.   Journal of Alloys and Compounds 2018,764, 80-87.

32. Li G., Yan XM.*, Mei P., Jiang   Y., Zhang Y., Deng F., Xiong Y., Tang HL. Enhanced performance of   dye-sensitized solar cells based on meso/macroporous phosphotungstic   acid/TiO2 photoanodes. Journal of Materials Science-Matherials in Electronics.   2018, 29(9) 7718-7724.

33. Chen M., Wang   R., Cai SC., Mei P., Yan   XM.*, Jiang Y., Zhang Y., Xiao W., Tang HL. Microporous   N-doped Carbon Electrochemical Catalyst Derived from Polyacrylamide Hydrogel   for Oxygen Reduction Reaction in Alkaline Media. International Journal of   Electrochemical Science, 2018, 13(3): 2401-2411.

34. Jiang Y.,   Zhang Y., Yan   XM.*, Tian M.,   Xiao W., Tang HL*., A sustainable route from fly ash to silicon nanorods for   high performance lithium ion batteries, Chemical Engineering Journal, 2017,   330, 1052-1059.

35. Jiang Y., Yan   XM.*, Xiao W., Tian M., Gao L., Qu D., Tang HL. Co3O4-graphene   nanoflowers as anode for advanced lithium ionbatteries with enhanced rate   capability. Journal of Alloys and Compounds 2017,710, 114-120.