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近年来,主要从事碳基材料及其复合物应用在锂离子电池、空气电池等方面的储能研究以及锂电池全电池的工程化应用研究;先后主持国家青年基金省自然科学基金、省高校杰青培育项目等各1项,参与973项目子课题及国家自然科学基金项目多项。以第一作者通讯作者在Energy Storage Mater.SmallChem. Comm.J. Mater. Chem.J. Mater. Chem. AACS Appl. Mater. InterfacesElectrochem. Comm.J. Phys. Chem. C.J Power SourcesElectrochim. Acta等发表30篇,申请专利3项;论文被引用逾2000次,H因子25;其中,一作论文最高被引158次,1篇被NPG Asia Materials亮点评论,1篇为J.Mater.Chem.杂志月度阅读量排名前10论文。




[1] Li J.X., Chen L., Ye R.L.,Gao J.G., Huang W.J., Lin Y.B.*, Huang Z.G.*. Improved Li-O2 battery performance enabled by catalysts of yolk-shell Fe3O4@C mixed with Pt-Ru nanoparticles, Appl. Surf. Sci., 2020, 507, 145103.

[2] Tao J.M., Lu L., Wu B.Q., Fan X.Y., Yang Y.M., Li J.X.*, Lin Y.B.*, Li Y.Y.*, Huang Z.G., Lu J.. Dramatic improvement enabled by incorporating thermal conductive TiN into Si-based anodes for lithium ion batteries. Energy Storage Mater., 2019, doi.org/10.1016/j.ensm.2019.12.025.

[3]Li J.X., Li Z.B., Huang W.J., Chen L., Lv F.C., Zou M.Z., Feng Q., Huang Z.G.*, Lu J.*, Li Y.Y.*. A facile strategy to construct silver-modified, ZnO-incorporated and carbon-coated Silicon/porous-carbon nanofibers with enhanced lithium storage. Small2019, 15, 1900436.

[4] Chen Y., Yu Q.,  Xu G.G., Zhao G.Y., Li J.X.*, Hong Z.S., Lin Y.B., Dong C.L.*, Huang ZZ.G.*. In situ observation of the insulator-to-metal transition and nonequilibrium phase transition for Li1–xCoO2 films with preferred (003) orientation nanorods. ACS Appl. Mater. Interfaces, 2019, 11(36), 33043.

[5] Huang W.J., Chen L., Chen Y., Zou M.Z., Feng Q., Li J.X.*, Huang Z.G.*. Improved reaction kinetics and reserved spacial structure of Fe3C-SnO2@@C toward high-performance lithium storage, J. Alloys Comp. 2019, 785, 925.

[6] Chen Y., Peng X., Fan X., Qing Y., Zhao G.Y., Lin Y.B., Li J.X.*, Huang Z.G.*. Suppressing volume change and in situ electrochemical atom force microscopy observation during the lithiation/delithiation process for CuO nanorod array electrodes, J. Solid State Electrochem. 2019, 23,367.

[7] Chen J.J., Lin Y.D., Chen Y. H., Zheng Y.P., Jiang L.Q., Feng Q.*, Li J.X.*, Huang Z.G.*. Three-dimensional hierarchical nanocomposites of NiSnO3/graphene encapsulated in carbon matrix as long-life anode for lithium-ion batteries, J. Alloys Compounds.,201915, 492.

[8] Li J.X., Huang W.J., Zou M.Z., Wu C.X., Zhao Y., Guan L.H.*, Huang Z.G.*.Iron encapsulated in single-walled carbon nanotubes for obtaining the evidence of improved coulombic efficiency and improving the lithium battery performance of ZnO anodes. RSC Advances,2018, 8, 11566.

[9] Zou M.Z., Wang L.L., Li J.X.*, Guan L.H., Huang Z.G.*. Enhanced Li-ion battery performances of yolk-shell Fe3O4@C anodes with Fe3C catalyst.  Electrochim. Acta., 2017, 233, 85. 

[10] Wen W.W., Zou M.Z., Feng, Q., Li J.X.*, Lai H., Huang Z.G.*. SnO2 nanospheres among GO and SWNTs networks as anode for enhanced lithium storage performances. J. Ener. Chem.,2016, 25, 45.

[11] Zou M.Z., Wen W.W., Li J.X.*, Lai H., Huang Z.G.*. Electric Cu nanoparticles decorated V2O5 spheres as high performancecathodes for lithium ion batteries. J. Alloys Compounds.,2016, 681, 268.

[12] Li J.X., Wen W.W., Xu G.G., Zou M.Z., Guan LH.*, Huang Z.G., Fe-added Fe3C carbon nanofibers as anode for Li ion batteries with excellent low-temperature performance. Electrochimica. Acta., 2015, 153, 300. 

[13] Li J.X., Wen W.W., Zou M.Z., Guan L.H., Huang Z.G.*. MWNT-supported bifunctional catalyst of β-FeOOH nanospindles for enhanced rechargeable Li-O2 batteries.J. Alloy. Comp., 2015, 639, 428.

[14] Wen W.W., Zou M.Z., Feng, Q., Li J.X.*, Guan L.H., Lai H., Huang Z.G.*. Cu particles decorated pomegranate-structured SnO2@C composites as anode for lithium ion batteries with enhanced performance. Electrochimica. Acta., 2015, 182, 272.

[15] Li J.X., Zou M.Z., Chen L.Z., Huang Z.G.*, Guan L.H.*. An efficient bifunctional catalyst of Fe/Fe3C carbon nanofibers for rechargeable Li-O2 batteries. J. Mater. Chem. A., 2014, 2, 10634.

[16] Zou M.Z., Li J.X.*, Wen W.W., Lin Y.B., Lai H., Huang Z.G.*. Free-standing anode of N-doped carbon nanofibers containing SnOx for high-performance lithium batteries. Mater. Res. Bull.,2014, 60, 868.

[17] Zou M.Z., Li J.X.*, Wen W.W., Chen L.Z., Guan L.H., Lai H.*, Huang Z.G.*. Silver-incorporated composites of Fe2O3 carbon nanofifibers as anodes for high-performance lithium batteries, J. Power Sources, 2014, 270, 468.

[18] Li J.X., Zou M.Z., Wen W.W., Zhao Y., Lin Y.B., Huang Z.G.*, Guan L.H.*, Spinel MFe2O4(M = Co,Ni) nanoparticles coated on multi-walled carbon nanotubes as electrocatalysts for Li-O2 batteries. J. Mater. Chem. A., 2014, 2, 10257.  

[19] Li J.X., Zhao Y., Zou M.Z.,Huang Z.G.*, Guan L.H.*, An effective integrated design for enhanced cathodes of Ni foam-supported Pt/Carbon nanotubes for Li-O2 batteries. ACS Appl. Mater. Interfaces., 2014, 6, 12479. 

[20] Li J.X., Zou M.Z., Zhao Y, Lin Y.B., Lai H., Guan LH.*, Huang Z.G.*, Coaxial MWNTs@MnO2 confined in conducting PPy for kinetically efficient and long-term lithium ion storage. Electrochimica. Acta., 2013, 111, 165.

[21] Li J.X., Zou M.Z., Zhao, Y., Huang Z.G.*, Guan L.H.*. A simple integrated design and manufacture by electrospinning of stabilized lithium battery tin-based anodes. RSC Advances, 2013, 3, 19251.

[22] Li J.X., Zhao Y, Wu C.X., Lai H., Huang Z.G, Guan LH.*. Recent progress in carbon-based cathode for lithium-air batteries with organic electrolyte solution. Chin Sci Bull (Chin Ver., review), 2013, 58: 3189.

[23] Li J.X., Zhao Y., Ding Y. H., Guan L.H.*. Fe2O3 nanoparticles coated on ferrocene-encapsulated single-walled carbon nanotubes as stable anode materials for long-term cycling, RSC Advances,2012, 2, 4205.

[24] Li J.X., Zhao Y., Wang N., Ding Y. H., Guan L.H.*. Enhanced performance of a MnO2/Graphene-Sheet cathode for lithium ion batteries using sodium alginate as a binder. J. Mater. Chem.2012, 22, 13002.

[25] Li J.X., Zhao Y., Wang N., Guan L.H.*. A high performance carrier for SnO2 particles used in lithium ion battery. Chem. Comm., 2011, 47, 5238.

[26] Li J.X., Wang N., Zhao Y., Ding Y.H., Guan LH.*. MnO2 nanoflake coated on multi-walled carbon nanotubes for rechargeable lithium-air battery, Electrochem. Comm., 2011, 13(7), 698.

[27] Li J.X., Zhao Y, Guan LH.*. Lithium storage in single-walled carbon nanotubes,Electrochem. Comm., 2010, 12, 592.

[28] Li J.X., Lai H., Fan B.Q., Guan L.H., Huang Z.G.*. Urea melt electrodeposition of RE-IG (RE=La,Sm,Gd; IG=Fe,Co,Ni) amorphous alloy films. J. Alloy. Comp., 2009, 477, 547.

[29] Li J.X., Wu CX, Guan LH.*. Lithium insertion/extraction properties of nano-carbon materials, J. Phys. Chem. C., 2009, 113 (42), 18431. 

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