顾少楠 博士/副教授

硕士生导师


基本信息


办公室:化工楼C307

实验室:化工楼C304、C306

电 话:15665755905

邮 箱:sngu@qlu.edu.cn

Scopus Author ID: 55303763000

orcid personal page: https://orcid.org/0000-0002-5781-6428


教育背景及工作经历


2011-2016 北京科技大学 博士

2016-2017 香港科技大学 研究助理

2017-2018 香港理工大学 博士后

2019-至今 齐鲁工业大学 副教授


研究方向


锂离子电池、锂硫电池电极材料、光催化材料等能源转化与储存材料的设计、合成与结构性质计算。


承担科研项目


1. 稀土元素多电子层键合活性中心RE-N的构筑及多硫化锂反应调控,国家自然科学基金,30万,主持,2022-2024

2. MoFe活性中心对光催化氮还原反应的调控,科教产融合试点工程项目,30万,主持,2022-2023.

3. 多壳层三元过渡金属氧化物@氮掺杂碳@石墨烯气凝胶锂离子电池负极材料的构筑及性能,国家自然科学基金,70万,参与,2020-2024

4. 二维-二维纳米片层结构TiO2/MXene复合材料的可控构筑及在光催化领域的应用,山东省自然科学基金,10万,参与,2019-2022

5. 齐鲁工业大学优秀人才启动基金,30万,主持,2019-2022


发表论文


48. Gu, S.*; Liu, B.; Jiang, Y.; Li, H.; Wang, Y.; Gao, Y.; Ren, Y.; Zhou G., Rational design of dual catalysts towards efficient polysulfides conversion for high performance Li-S batteries, Journal of Power Sources 2022,545, 231950.

47. Li, H.; Zhao. H.; Li, C.; Li, B.; Tao, B.; Gu, S.*; Wang G.; Chang, H., Redox regulation of photocatalytic nitrogen reduction by gadolinium doping in two-dimensional bismuth molybdate nanosheets, Applied Surface Science2022,600, 154105

46. Ren, Y.;  Li, X.;  Wang, Y.;  Gu, S.;  Gao, T.;  Cao, P.; Zhou, G., Preparation of yolk-double shell Mn0.5Zn0.5Co2O4/C nanomaterials as anodes for high-performance lithium-ion batteries, Applied Materials Today2022,27, 101452

45. Yue, K.;  Zhai, C.;  Gu, S.;  Yeo, J.; Zhou, G., The effect of ionic liquid-based electrolytes for dendrite-inhibited and performance-boosted lithium metal batteries. Electrochimica Acta 2022,401,

44. Ren, Y.;  Li, X.;  Wang, Y.;  Gong, Q.;  Gu, S.;  Gao, T.;  Sun, X.; Zhou, G., Self-template formation of porous yolk-shell structure Mo-doped NiCo2O4 toward enhanced lithium storage performance as anode material. Journal of Materials Science and Technology 2022,102, 186-194.

43. Li, H.;  Deng, H.;  Gu, S.*;  Li, C.;  Tao, B.;  Chen, S.;  He, X.;  Wang, G.;  Zhang, W.; Chang, H., Engineering of bionic Fe/Mo bimetallene for boosting the photocatalytic nitrogen reduction performance. Journal of Colloid and Interface Science 2022,607, 1625-1632. (Front Cover)

42. Zhao, Y.;  Liu, X.;  Gu, S.; Liu, J., Enhanced photocatalytic performance of rhodamine B and enrofloxacin by Pt loaded Bi4V2O11: boosted separation of charge carriers, additional superoxide radical production, and the photocatalytic mechanism. RSC Advances 2021,11 (16), 9746-9755.

41. Yue, K.;  Zhai, C.;  Gu, S.;  He, Y.;  Yeo, J.; Zhou, G., Performance-enhanced lithium metal batteries through ionic liquid based electrolytes and mechanism research derived by density functional theory calculations. Electrochimica Acta 2021,368.

40. Sun, B.;  Dong, X.;  Li, H.;  Shang, Y.;  Zhang, Y.;  Hu, F.;  Gu, S.;  Wu, Y.;  Gao, T.; Zhou, G., Surface charge engineering for two-dimensional Ti2CTx MXene for highly efficient and selective removal of cationic dye from aqueous solution. Separation and Purification Technology 2021,272.

39. Liu, X.;  Gu, S.#;  Zhang, X.;  Li, X.;  Zhao, Y.; Li, W., The production discipline and mechanism of hydroxyl radical by investigating the Ln2O3-Bi2MoO6 heterojunction photocatalysts. Journal of Alloys and Compounds 2021,864.

38. Li, X.;  Li, W.;  Gu, S.;  Liu, X.;  Li, H.;  Ren, C.;  Ma, X.; Zhou, H., Efficient ytterbium-doped Bi2WO6 photocatalysts: Synthesis, the formation of oxygen vacancies and boosted superoxide yield for enhanced visible-light photocatalytic activity. Journal of Alloys and Compounds 2021,851.

37. Li, H.;  Li, C.;  Tao, B.;  Gu, S.;  Xie, Y.;  Wu, H.;  Zhang, G.;  Wang, G.;  Zhang, W.; Chang, H., Two-Dimensional Metal Telluride Atomic Crystals: Preparation, Physical Properties, and Applications. Advanced Functional Materials 2021,31 (23).

36. Gong, Q.;  Wang, H.;  Song, W.;  Sun, B.;  Cao, P.;  Gu, S.;  Sun, X.; Zhou, G., Tunable Synthesis of Hierarchical Yolk/Double-Shelled SiOx@TiO2@C Nanospheres for High-Performance Lithium-Ion Batteries. Chemistry - A European Journal 2021,27 (8), 2555.

35. Tang, X.;  Zhao, C.;  Li, Z.;  Zhang, Y.; Gu, S.* In Hollow sandwich-structured N-doped carbon-silica-carbon nanocomposite anode materials for Li ion batteries, Journal of Physics: Conference Series, 2020.

34. Ren, C.;  Li, W.;  Gu, S.;  Liu, X.;  Li, X.;  Fan, H.;  Han, K.; Ma, X., ZnSe nanoparticles with bulk WC as cocatalyst: A novel and noble-metal-free heterojunction photocatalyst for enhancing photocatalytic hydrogen evolution under visible light irradiation. Applied Materials Today 2020,20.

33. Liu, X.;  Gu, S.*;  Zhao, Y.;  Zhou, G.; Li, W., BiVO4, Bi2WO6 and Bi2MoO6 photocatalysis: A brief review. Journal of Materials Science and Technology 2020,56, 45-68. (高被引)

32. Liu, T.;  Gong, Q.;  Cao, P.;  Sun, X.;  Ren, J.;  Gu, S.*; Zhou, G., Preparations of nife2o4 yolk-shell@c nanospheres and their performances as anode materials for lithium-ion batteries. Nanomaterials 2020,10 (10), 1-15.

31. Liu, B.;  Gu, S.*;  Li, H.;  Wang, Y.;  He, Y.;  Song, X.; Zhou, G., Valence mediation of samarium towards polysulfides as a redox mediator for high performance Li–S batteries. Materials Today Energy 2020,17.

30. Li, H.;  Gu, S.#;  Tao, B.;  Xie, Y.;  Guo, F.;  Zhang, S.;  Liu, B.;  Liu, J.;  Zhang, W.; Chang, H., Highly wrinkled NiO nanosheet-based hierarchical structure/reduced fluorographene composite for enhanced performance of lithium-sulfur battery. Journal of the Taiwan Institute of Chemical Engineers 2020,111, 205-211.

29. Li, H.;  Gu, S.#;  Sun, Z.;  Guo, F.;  Xie, Y.;  Tao, B.;  He, X.;  Zhang, W.; Chang, H., The in-built bionic moFe cofactor in Fe-doped two-dimensional MoTe2nanosheets for boosting the photocatalytic nitrogen reduction performance. Journal of Materials Chemistry A 2020,8 (26), 13038-13048.

28. Gong, Q.;  Wang, H.;  Song, W.;  Sun, B.;  Cao, P.;  Gu, S.;  Sun, X.; Zhou, G., Tunable Synthesis of Hierarchical Yolk/Double-Shelled SiOx@TiO2@C Nanospheres for High-Performance Lithium-Ion Batteries. Chemistry - A European Journal 2020.

27. Gong, Q.;  Gu, S.;  Li, J.;  Wang, Q.;  Sun, X.; Zhou, G., Fabrication of Silica/Sulfur@Polyaniline Spheres with Radial Mesochannels as Enhanced Cathode Materials for High-Performance LithiumSulfur Batteries. ChemNanoMat 2020,6 (5), 827-836.

26. Fan, H.;  Zhou, H.;  Li, W.;  Gu, S.*; Zhou, G., Facile fabrication of 2D/2D step-scheme In2S3/Bi2O2CO3 heterojunction towards enhanced photocatalytic activity. Applied Surface Science 2020,504(高被引)

25. Wang, F.;  Gu, S.;  Shang, R.;  Jing, P.;  Wang, Y.; Li, W., Fabrication of AgBr/La2Ti2O7 hierarchical heterojunctions: Boosted interfacial charge transfer and high efficiency visible-light photocatalytic activity. Separation and Purification Technology 2019,229.

24. Gu, S.;  Bai, Z.;  Majumder, S.;  Huang, B.; Chen, G., Conductive metal–organic framework with redox metal center as cathode for high rate performance lithium ion battery. Journal of Power Sources 2019,429, 22-29.

23. Gu, S.;  Bai, Z.;  Majumder, S.;  Huang, B.; Chen, G., In situ grown α-Cos/Co heterostructures on nitrogen doped carbon polyhedra enabling the trapping and reaction-intensification of polysulfides towards high performance lithium sulfur batteries. Nanoscale 2019,11 (43), 20579-20588.

22. Wendi, H.;  Sun, J.;  Shen, T.;  Gu, S.; Wang, X., DMF-Assisted Hydrothermal Synthesis of BiVO4/Bi2VO5 Heterojunction Photocatalyst with Highly Enhanced Photocatalytic Activity. Russian Journal of Physical Chemistry A 2018,92 (9), 1837-1845.

21. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Ren, C.; Liu, X., Construction of Eu2O3/g-C3N4 Redox Heterojunctions Containing Eu3+/Eu2+ Self-Redox Centers for Boosted Visible-Light Photocatalytic Activity. European Journal of Inorganic Chemistry 2018,2018 (22), 2564-2573.

20. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Wu, X.;  Ren, C.; Liu, X., Facile fabrication of direct Z-scheme MoS2/Bi2WO6 heterojunction photocatalyst with superior photocatalytic performance under visible light irradiation. Journal of Photochemistry and Photobiology A: Chemistry 2017,335, 140-148.

19. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Liu, X.; Ren, C., Visible-light-driven heterojunction photocatalysts based on g-C3N4 decorated La2Ti2O7: Effective transportation of photogenerated carriers in this heterostructure. Catalysis Communications 2017,96, 50-53.

18. Li, H.;  Li, W.;  Gu, S.;  Wang, F.;  Liu, X.; Ren, C., Forming oxygen vacancies inside in lutetium-doped Bi2MoO6 nanosheets for enhanced visible-light photocatalytic activity. Molecular Catalysis 2017,433, 301-312.

17. Wang, M.;  Li, W.;  Zhao, Y.;  Gu, S.;  Wang, F.;  Li, H.;  Liu, X.; Ren, C., Synthesis of BiVO4-TiO2-BiVO4 three-layer composite photocatalyst: Effect of layered heterojunction structure on the enhancement of photocatalytic activity. RSC Advances 2016,6 (79), 75482-75490.

16. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Wu, X.; Liu, X., Samarium and Nitrogen Co-Doped Bi2WO6Photocatalysts: Synergistic Effect of Sm3+/Sm2+Redox Centers and N-Doped Level for Enhancing Visible-Light Photocatalytic Activity. Chemistry - A European Journal 2016,22 (36), 12859-12867.

15. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Liu, X.; Wang, M., Fabrication of FeWO4@ZnWO4/ZnO Heterojunction Photocatalyst: Synergistic Effect of ZnWO4/ZnO and FeWO4@ZnWO4/ZnO Heterojunction Structure on the Enhancement of Visible-Light Photocatalytic Activity. ACS Sustainable Chemistry and Engineering 2016,4 (12), 6288-6298.

14. Li, H.;  Li, W.;  Gu, S.;  Wang, F.;  Zhou, H.;  Liu, X.; Ren, C., Enhancement of photocatalytic activity in Tb/Eu co-doped Bi2MoO6: The synergistic effect of Tb-Eu redox cycles. RSC Advances 2016,6 (53), 48089-48098.

13. Li, H.;  Li, W.;  Gu, S.;  Wang, F.; Zhou, H., In-built Tb4+/Tb3+ redox centers in terbium-doped bismuth molybdate nanograss for enhanced photocatalytic activity. Catalysis Science and Technology 2016,6 (10), 3510-3519.

12. Gu, S.;  Li, W.;  Wang, F.;  Li, H.; Zhou, H., Substitution of Ce(III,IV) ions for Bi in BiVO4 and its enhanced impact on visible light-driven photocatalytic activities. Catalysis Science and Technology 2016,6 (6), 1870-1881.

11. Gu, S.;  Li, W.;  Luo, W.; Chang, Z., Novel Application of Silicate Sol to Improve the Stability of Sodium Dodecylsulfate Foams Used for Enhanced Oil Recovery. Chemistry and Technology of Fuels and Oils 2016,52 (4), 386-395.

10. Gu, S.;  Li, W.;  Bian, Y.;  Wang, F.;  Li, H.; Liu, X., Highly-Visible-Light Photocatalytic Performance Derived from a Lanthanide Self-Redox Cycle in Ln2O3/BiVO4 (Ln: Sm, Eu, Tb) Redox Heterojunction. Journal of Physical Chemistry C 2016,120 (34), 19242-19251.

9. Zhang, Y.;  Chang, Z.;  Luo, W.;  Gu, S.;  Li, W.; An, J., Effect of starch particles on foam stability and dilational viscoelasticity of aqueous-foam. Chinese Journal of Chemical Engineering 2015,23 (1), 276-280.

8. Wu, X.;  Zhou, H.;  Gu, S.;  Wang, F.;  Liu, J.; Li, W., In situ preparation of novel heterojunction BiOBr/BiVO4 photocatalysts with enhanced visible light photocatalytic activity. RSC Advances 2015,5 (112), 92769-92777.

7. Wang, S.;  Li, W.;  Chen, F.;  Gu, S.; Chang, Z., Visible light-driven BiVO4/TiO2 composite photocatalysts: Preparation methods and photocatalytic performance. Australian Journal of Chemistry 2015,68 (8), 1268-1275.

6. Wang, F.;  Li, W.;  Gu, S.;  Li, H.;  Zhou, H.; Wu, X., Novel In2S3/ZnWO4 heterojunction photocatalysts: facile synthesis and high-efficiency visible-light-driven photocatalytic activity. RSC Advances 2015,5 (109), 89940-89950.

5. Guo, X. N.;  Liu, S. X.;  Gu, S. N.;  Liu, J.;  Chang, Z. D.; Li, W. J., Preparation and properties of BiVO4/TiO2-graphene composite photocatalysts with wide spectra. Gongcheng Kexue Xuebao/Chinese Journal of Engineering 2015,37 (8), 1057-1062.

4. Gu, S. N.;  Li, W. J.;  Luo, W. L.;  Chang, Z. D.; Zhou, H. L., Hydrophobic ZnO: Low temperature complex-precipitate synthesis and application in improving foam stability. Chinese Journal of Inorganic Chemistry 2015,31 (3), 594-602.

3. Gu, S.;  Li, W.;  Wang, F.;  Wang, S.;  Zhou, H.; Li, H., Synthesis of buckhorn-like BiVO4 with a shell of CeOx nanodots: Effect of heterojunction structure on the enhancement of photocatalytic activity. Applied Catalysis B: Environmental 2015,170-171, 186-194.

2. Gu, S. N.;  Sun, H. Y.;  Fan, Y. J.; Sun, Z. X., Synthesis of size tunable nano copper oxide and its surface sulphidization. Chinese Journal of Inorganic Chemistry 2013,29 (6), 1185-1191.

1. Ru, M.;  Chang, Z.;  Luo, W.;  Li, W.;  Gu, S.;  Zhang, Y.;  Qiu, H.; Niu, J., Influence of hydrophobically modified silicon dioxide particles on stability of EOR flooding foam. Huagong Xuebao/CIESC Journal 2012,63 (6), 1943-1950.

 


授权专利


1. 顾少楠,宋晓艺,周国伟,刘冰洁,任永强,一种锂硫电池用导电MOF修饰碳纤维纸插层材料,中国发明专利,专利号:ZL 202010421996.9

2. 顾少楠,刘冰洁,王轶男,周国伟,宋晓艺,松枝状氧化钐石墨烯硫凝胶结构材料及制备方法与应用,中国发明专利,专利号:ZL 201910865750.8

3. 周国伟,宫庆华,顾少楠,孙学凤,胡婷婷,一种锂硫电池正极用硫/二氧化硅/聚苯胺核壳结构纳米复合材料及制备方法,中国发明专利,专利号:ZL 201910266578.4

4. 周国伟,刘田莉,顾少楠,宫庆华,王茜,核壳状铁酸镍及制备方法、铁酸镍@C材料及制备方法与应用,中国发明专利,专利号:ZL 201911088948.6


承担课程


《物理化学》,《物理化学实验》


主要荣誉


1. 齐鲁工业大学青年教学名师

2. 山东省青年教师教学比赛三等奖(2021)

3. 齐鲁工业大学教师教学比赛一等奖(2020)

4. 齐鲁工业大学本科生优秀毕业论文指导教师(2022)

4. 齐鲁工业大学本科生优秀毕业论文指导教师(2021)










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