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。欢迎感兴趣的同学加入课题组!
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. 多孔功能材料构筑及应用研究,济南市“高校20条”创新团队项目,150万,结题,2019-2022
6. 齐鲁工业大学优秀人才启动基金,30万,主持,2019-2022
发表论文
68. Zhang, Y.; Lan, J.; Xu, Y.; Yan, Y.; Liu, W.; Liu, X.; Gu, S.*; Zhou, J.; Wang, M.*, Ultrafine PtCo alloy by pyrolysis etching-confined pyrolysis for enhanced hydrogen evolution, Journal of Colloid and Interface Science, 2024, 660, 997.
67. Guo, M.; Gu, S.*; Zhou, R.; Zhang, Z,; Xu, S.; Wang, Y.; Zhou, G.*, Flexible and binder free electrode with d-p band center manipulated MoTe2 nanosheets towards high energy Lithium-sulfur batteries, Chemical Engneering Journal, 2024, 484, 149500.
66. Xu, S.; Guo, M,; Fang, Z.; Wang, Y.; Li, H.; Chang, H.*; Zhou, G.; Gu, S.*, Multifunctional catalytic hierarchical interfaces of Ni12P5-Ni2P porous nanosheets enabled both sulfides reaction promotion and Li-dendrite suppression for high-performance Li-S full batteries, Small, 2024, 20, 2304618. (封面文章)
65. Zhou, R.; Gu, S.*; Guo, M.; Xu, S.; Zhou, G., Progresses and prospects of asymmetrically coordinated single atom catalysts for lithium-sulfur batteries, Energy & Environmental Materials, 2024, 10.1002/eem2.12703.
64. Sang, B.; Wang, X.*; Feng, K.; Gu, S.; Li, G.; Yue, K.; He, Y.; Wang, Q.; Zhou, G.*, Boosting zinc-ion storage performance by interlayer chemistry modulation on an organic-inorganic hybrid cathode, Journal of Alloys and Compounds, 2024, 653, 199.
63. Xu, S.; Shen, L.; Wang, X.; Gu, S.; Sun, W.*; Huang, Y.*, Conversion-intercalation competing behaviour of halogen storage on graphite electrode from fluid ZnCl2/ZnBr2 hydrates, Chemical Communications, 2023, 60, 1027.
62. Li, H.; He, Y.*; Wang, Q.; Gu, S.; Wang, L.; Yu, J.; Zhou, G.*; Xu, L.*, SnSe2/NiSe2@N-Doped Carbon Yolk-Shell Heterostructure Construction and Selenium Vacancies Engineering for Ultrastable Sodium-Ion Storage, Advenced Energy Materials, 2023, 47, 2302901.
61. Yang, C.; Li, X.; Gao, T.; Gu, S.*; Wang, X.; Wang, Y.; Wang, Q.; He, Y.; Zhou, G., Novel quadruple-shelled hollow Zn0.5Mn0.5Co2O4/RGO heterostructure enable rapid and stable lithium storage performance, Chemical Engneering Journal, 2023, 474, 145818.
60. Lu, J.; Gu, S.*; Li, H.; Wang, Y.; Guo, M.; Zhou, G.*, Review on multi-dimensional assembled S-scheme heterojunction photocatalysts, Journal of Materials Science and Technology, 2023, 160, 214. (高被引)
59. Wu, S.; Xu, X.*; Wang, Z.; Ke, X.; Gu, S.; Zhou, G.*; Wang, L.*, Engineering Strategy for Enhancing the Co Loading of Co-N4-C Single-Atomic Catalysts Based on the ZIF-67@Yeast Construction, ACS Applied Material and Interfaces, 2023, 15, 40451.
58. Lu, J.; Wang, Y.; Li, H.; Hu, W.; Zhou, G.; Sun, B.; Gu, S.*, Bi2MoSxO6-x/α-CoS Crystalline/Amorphous S-scheme heterojunction for visible Light-Driven targeted Photo-decomposition of amoxicillin, Chemical Engineering Journal, 2023, 470, 144294.
57. Li, H.; Zhao, H.; Jian, S.; Tao, B.; Gu, S.; Xu, G.; Wang, G.*; Chang, H.*, Designing proton exchange membrane fuel cells with high specific power density, Journal of Materials Chemistry A, 2023, 11, 17373.
56. Li, H.; Jian, S.; Tao, B.; Xu, G.; Liu, B.; Gu. S.*; Wang G.; Chang, H.*, “FeV-cofactor”-inspired bionic Fe-doped BiVO4 photocatalyst decorated with few-layer 2D black phosphorus for efficient nitrogen reduction, Inorganic Chemistry Frontiers, 2023, 17, 5004.
55. Meng, Y.; Li, J.; Gu, S.*; Fu, Y.; Wang, Z.; Liu, J.; Gong, X., Li-ion complex enhances interfacial lowest unoccupied molecular orbital for stable solid electrolyte interface of natural graphite anode, Electrochimica Acta, 2023, 449, 142262.
54. Yang, C.; Wang, X.; Ren, Y.; Gu, S.;Wang, Q.; Li, H.; Yue, K.; Zhou, G.*, NiFe2V2O8@N-doped carbon yolk-double shell spheres for efficient lithium storage, Chemical Engineering Journal, 2023, 15, 140045
53. Zhu, L.; Hu, F.; Sun, B.; Gu, S.; Zhou, G.*, Recent advances on multivariate MOFs for photocatalytic CO2 reduction and H2 evolution, Advanced Sustainable Systems, 2023, 7, 2200394
52. Li, H.; Zhao, H.; Tao, B.; Xu, G.; Gu, S.*, Wang, G.; Chang, H., Pt-based oxygen reduction reaction catalysts in proton exchange membrane fuel cells: controllable preparation and structural design of catalytic layer, Nanomaterials, 2022, 23, 4173
51. Gu, S.*; Xu, S.; Sonf, X.; Li, H.; Wang, Y.; Zhou, G.; Chang, H., Electrostatic potential-induced Co-N4 active centers in a 2D conductive metal-organic framework for high-performance lithium-sulfur batteries, ACS Applied Material and Interfaces, 2022, 45, 50815-50826 (封面文章)
50. Wang, Q.; Wu, Y.; Pan, N.; Yang, C.; Wu, S,; Li, D,; Gu, S,*; Chai, J., Preparation of rambutan-like Co0.5Ni0.5Fe2O4/C as anodes for high-performance lithium-ion batteries, Fronters in Chemistry, 2022, 10, 1052560
49. Guo, M,; Gu, S.*; Xu, S.; Lu, J,; Wang, Y.; Zhou, G., Design, synthesis and application of two-dimensional metal tellurides as high-performance electrode materials, Fronters in Chemistry, 2022, 10, 1023003
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 Science, 2022, 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 Today, 2022, 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. (封面文章)
42. Zha, 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 Lithium−Sulfur 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.; 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.; 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
6. 岳堃, 顾少楠,周国伟,何妍妍,王茜,离子液体基的醚类锂金属电池电解液及其制备方法与应用,中国发明专利,专利号:ZL 202111114199.7
5. 顾少楠,任永强,李维馨,王轶男,周国伟, 一种稀土单原子材料及其制备方法和作为锂硫电池隔膜改性材料的应用,中国发明专利,专利号:ZL 202210759672.5
4. 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
3. 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
2. 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
1. 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. 山东省研究生优秀创新成果奖 (2023)
3. 山东省青年教师教学比赛三等奖(2021)
4. 齐鲁工业大学教师教学比赛一等奖(2020)
5. 齐鲁工业大学本科生优秀毕业论文指导教师(2021)
6. 齐鲁工业大学本科生优秀毕业论文指导教师(2022)
7. 齐鲁工业大学本科生优秀毕业论文指导教师(2023)