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发布日期:2020-12-01  浏览:

姓名:徐晖 (硕士生导师)




2016/03-2019/03, 东南大学,材料学院,博士
2012/09-2015/06, 西南科技大学,材料学院,硕士
2006/09-2010/06, 中国矿业大学,材料学院,学士




(1)Xu H.*, Liu D., Wang W., Yu G.*, Selenium-doped amorphous black phosphorus@TiO2/C heterostructures for high-performance Li/Na/K Ion batteries. Inorganic Chemistry, 2022, 61: 3121-3131.

(2)Ren L.#, Yu G.#, Xu H.*, Wang W., Jiang Y., Ji M., Li S.*, Doping-induced static activation of MnO2 cathodes for aqueous Zn-ion batteries. ACS Sustainable Chemistry & Engineering, 2021, 9: 12223-12232.

(3)Wang W.#, Xu H.#, Yu G., Chen D., Sun S., Zhou M.*, Chen J.*, Interfacial modulation achieving flexible anode of FeP/N-doped C@carbon cloth with robust structure for high areal capacity lithium storage. Sustainable Energy & Fuels, 2021, 5: 5247–5256.

(4) Jiang Y., Xu H.*, Ren L., Ji M., Shen X., Li S.*, Mn0.26V2O5·nH2O nanoribbons with fast ion diffusion channels and high electrical conductivity for intercalation pseudocapacitive Zn2+ storage. Energy & Fuels, 2021, 35: 17948-17955.

(5) Xu H.*, Wang W., Qin L., Yu G., Ren L., Jiang Y., Chen J.*, Controllable synthesis of anatase TiO2 nanosheets grown on amorphous TiO2/C frameworks for ultrafast pseudocapacitive sodium storage. ACS Applied Materials & Interfaces, 2020, 12: 43813-43823.

(6) Wang W., Chen D., Xu H.*, Yu G., Sun S., Zhang W., Chen J.*, Amino-functionalized MOF derived porous Fe3O4/N-doped C encapsulated within a graphene network by self-assembling for enhanced Li-ion storage. Sustainable Energy & Fuels, 2020, 4: 3519-3527.

(7) Xu H.*, Wang W., Yu G., Qin L., Jiang Y., Ren L., Chen J.*, Nitrogen-doped carbon-coated TiO2/TiF3 heterostructure nanoboxes with enhanced lithium and sodium storage performance. ACS Applied Energy Materials, 2020, 3: 4738-4745.

(8) Xu H.*, Yu G., Wang W., Qin L., Ren L., Jiang Y., Amorphous TiO2/C frameworks as intercalation pseudocapacitance anodes for fast and durable sodium storage. Energy & Fuels, 2020, 34: 13149-13156.

(9) Xu H., Sun Z., Chen, J., "Graphene-based anode materials for lithium-ion batteries" in Tao L. and Akinwande D. (Editor) "Emerging 2D materials and devices for the internet of things", Elsevier, 2020: 139-164.

(10) Xu H., Liu Y., Qiang T., Qin L., Chen J.*, Zhang P., Zhang Y., Zhang W., Tian W., Sun Z.*, Boosting sodium storage properties of titanium dioxide by a multiscale design based on MOF-derived strategy. Energy Storage Materials, 2019, 17: 126-135.

(11) Xu H., Qin L., Chen J.*, Wang Z.*, Zhang W., Zhang P., Tian W., Zhang Y., Guo X., Sun Z.*, Toward advanced sodium-ion batteries: a wheel-inspired yolk-shell design for large-volume-change anode materials. Journal of Materials Chemistry A, 2018, 6: 13153-13163.

(12) Xu H., Wang D., Zhang W., Zhu J., Zhang T.*, Guo X., Zhang Y., Sun Z., Chen J.*, SnO2 nanorods encapsulated within a 3D interconnected graphene network architecture as high-performance lithium-ion battery anodes. Sustainable Energy & Fuels, 2018, 2: 262-270.

(13) Xu H., Chen J.*, Wang D., Sun Z.*, Zhang P., Zhang Y., Guo X., Hierarchically porous carbon-coated SnO2@graphene foams as anodes for lithium ion storage. Carbon, 2017, 124: 565-575.

(14) Xu H., Chen J., Li Y., Guo X., Shen Y., Wang D., Zhang Y., Wang Z., Fabrication of Li4Ti5O12-TiO2 nanosheets with structural defects as high-rate and long-life anodes for lithium-ion batteries. Scientific Reports, 2017, 7: 2960.

(15) Xu H., Chen J., Wang D., Xiao L., Guo X., Zhang Y., Wang Z., Carbon coated Li4Ti5O12-TiO2 microspheres as anode materials for lithium-ion batteries. Surface Engineering, 2017, 33: 559-566.

(16) Xu H., Zeng M.*, Li J., Li F., Cr-doped TiO2 core-shell nanospheres with enhanced photocatalytic activity and lithium storage capacity. Nano, 2016, 11: 1650006.

(17) Xu H., Zeng M.*, Li J., Tong X., Facile hydrothermal synthesis of flower-like Co-doped NiO hierarchical nanosheets as anode materials for lithium-ion batteries. RSC Advances, 2015, 5: 91493-91499.

(18) Xu H., Zeng M.*, Li J., Graphene-wrapped Cr2O3 hollow nanospheres with enhanced electrochemical performances for lithium-ion batteries. International Journal of Electrochemical Science, 2015, 10: 7361-7370.

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