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(1) L.Y. Yang, J.R. Xie, A. Abliz, J. Liu, R. Wu, S.S. Tang, S.Y. Wang, L.L. Wu, Y.Y. Zhu, Hollow paramecium-like SnO2/TiO2 heterostructure designed for sodium storage, J. Solid State Chem., 2019, 274, 176–181
(2) L.Y. Yang, S. Li, J. Liu*, K. Zhu, S. Liu, M. Lei, Hollow bean-pod-like SiO2-supported-SnO2/C nanocomposites for durable lithium and sodium storage, J. Mater. Chem. A, 2017, 5, 1629-1636.
(3) L.Y. Yang, S.T. Li, S.Y. Wang, K.J. Zhu, J. Liu, Y.W. Chen, S.S. Tang, H.Y. Mi, F.J. Chen,J. Alloys Compd. 2018, 758, 177-183.
(4) L.Y. Yang, H.Z. Li, L.Z. Cheng, S.T. Li,, J. Liu*, J. Min, K.J. Zhu, H. Wang, M. Lei, A three-dimensional surface modified carbon cloth designed as flexible current collector for high-performance lithium and sodium Batteries, J. Alloys Compd. 2017, 726, 837-845
(5) H.Z. Li#, L.Y. Yang#, J. Liu*, S.T. Li, L. B. Fang, Y. K. Lu, H. R. Yang, S. L. Liu, M. Lei; Improved electrochemical performance of yolk-shell structured SnO2@void@C porous nanowires as anode for lithium and sodium batteries. J. Power Sources: 2016, 324, 780-787.
(6) L. Y. Yang, H. Z. Li, J. Liu*, Y. K. Lu, S.T. Li, J. Min, N. Yan, Z. Men, M. Lei; Effects of TiO2 phase on the performance of Li4Ti5O12 anode for lithium-ion batteries, J. Alloys Compd. 2016, 689, 812-819.
(7) L.Y. Yang, H.Z. Li, J. Liu*, S.S. Tang, Y.K. Lu, S.T. Li, J. Min, N. Yan, M. Lei, Li4Ti5O12 nanosheets as high-rate and long-life anode materials for sodium-ion batteries, J. Mater. Chem. A, 2015, 3, 24446–24452.
(8) L.Y. Yang, H. Z. Li, J. Liu*, Z.Q. Sun, S.S. Tang, M. Lei, Dual yolk-shell structure of carbon and silica-coated silicon for high performance lithium-ion batteries. Sci. rep. 2015, 5, 10908.
(9) L.Y. Yang, J. J. Kang*, Wu. Rong, L. Jin, S. Y. Fei, Synthesis of CdTe Nanosheets and pineee-like Hyperbranched CdTe Nanostructures prepared by a modified Film Technique: Catalyst-assisted Vacuum Thermal Evaporation, Material letters, 2011, 65, 17-20
(10) L.Y. Yang, W. J. Wang, B. Song, R. Wu, J. Li, Y.F. Sun , H. Zhang, F. Shang, Y.F. Zheng, J.K. Jian*, Novel route to scable synthesis of Ⅱ-Ⅵ semiconductor nanowires: catalyst-assisted vacuum thermal evaporation, J. Cryst. Growth, 2010, 312, 2852-2856
(11) R.Z. Zhang, K.J.Zhu, J.D. Huang, L.Y. Yang, S.T. Li, Z.Y. Wang, J.R. Xie, H. Wang, J. Liu, Ultrafine Ni2P nanoparticles embedded in one-dimensional carbon skeleton derived from metal-organic frameworks template as a high-performance anode for lithium ion battery, J. Alloys Compd. 2019, 775, 490-497
(12) Z.H. Deng, J. Z. Luo, L. Y. Yang, J. Liu, K. J. Zhu, J. Min, G. Y. Wang, NiCo2O4 nanolayer cover on carbon cloth as anode materials for Supercapacitors, J. Sol-Gel Sci. Techn., 2019, 89, 486-491
(13) S.S Tang, L.Y. Yang, J. Liu, D. Fichou, , Carbon coated hierarchical porous MoO2 nanoflowers as high-performance anodes in lithium-ion batteries, Mater. Res. Bull. 2018, 102, 277–281
(14) K. J. Zhu, J. Liu,* S. T. Li, L. Liu, L. Y. Yang, S. L. Liu, H. Wang, T. Xie, Ultrafine Cobalt Phosphide Nanoparticles Embedded in Nitrogen-Doped Carbon Matrix as a Superior Anode Material for Lithium Ion Batteries, Adv. Mater. Interfaces 2017, 1700377
(15) J. Min, K. Wang, Jun Liu,* Y. Yao, W. Wang , L. Y. Yang, R Zhang, M. Lei,Facile synthesis of uniform MoO2/Mo2CTx heteromicrospheres as high-performance anode materials for lithium-ion batteries,Journal of Power Sources 2017, 363, 392-403
(16) K. J. Zhu, X. F. Wang, J. Liu, S. T. Li, H. Wang, L. Y. Yang, S. L. Liu, T. Xie, Novel Amorphous MoS2/MoO3/Nitrogen-Doped Carbon Composite with Excellent Electrochemical Performance for Lithium Ion Batteries and Sodium Ion Batteries, ACS Sustainable Chem. Eng. 2017, 5, 8025−8034.
(17) K.J. Zhu, G. Liu, Y.J. Wang, J. Liu, S.T. Li, L.Y. Yang, S. L. Liu, H. Wang, T. Xie, Metal-Organic Frameworks derived novel hierarchical durian-like nickel sulfide (NiS2) as an anode material for high-performance sodium-ion batteries, Materials Letters 2017, 197,180–183.
(18) X. Pan, S. T. Li, Z. M. Wang, L. Y. Yang, K. J. Zhu , L. Ren, M. Lei, J. Liu, Core–shell MoO2/C nanospheres embedded in bubble sheet-like carbon film as lithium ion Battery anodes, Materials Letters 2017, 199, 139–142.
(19) S. Li, G. Liu, J. Liu*, Y. Liu, Q. Yang, L.Y. Yang, H. Yang, S. Liu, M. Lei, M. Han, Carbon fiber cloth@VO2 (B): excellent binder-free flexible electrodes with ultrahigh mass-loading, J. Mater. Chem. A, 2016, 4, 6426-6432.
(20) J. Min, J. Liu*, M. Lei, W. Wang, Y. K. Lu, L. Y. Yang, Q. Yang, G. Liu, N. Su, Self-Assembly of Parallelly Aligned NiO Hierarchical Nanostructures with Ultrathin Nanosheet Subunits for Electrochemical Supercapacitor Applications, ACS Appl. Mater. Interfaces, 2016, 8, 780–791.
(21) Y. K. Lu, N. Su, L. Cheng, J. Liu*, L.Y. Yang, H. Yang, Q. Yang, S. Li, J. Min, M. Lei, Na0.33V2O5 nanosheet@graphene composites: Towards high performance cathode materials for sodium ion batteries, Material letters, 2016, 183, 346-350.
(22) S. T. Li, Z. M. Wang, J. Liu*, L. Y. Yang, Y. Guo, L. Z. Cheng, M. Lei, W. J. Wang Yolk−Shell Sn@C Eggette-like Nanostructure: Application in Lithium-Ion and Sodium-Ion Batteries, ACS Appl. Mater. Interfaces 2016, 8, 19438−19445.
(23) S. Li, J. Liu*, W. J. Wang, L.Y. Yang, K. J. Zhu, H. Wang; Synthesis of coral-like Fe2N@C nanoparticles and application in sodium ion batteries as a novel anode electrode material, RSC Adv., 2016, 6, 86131–86136.
(24) Y. K. Lu, J. Wu, J. Liu*, M. Lei, S. S. Tang, P. Lu, L.Y. Yang, H. Yang, Q. Yang, Facile Synthesis of Na0.33V2O5 Nanosheet-Graphene Hybrids as Ultrahigh Performance Cathode Materials for Lithium Ion Batteries, ACS Appl. Mater. Interfaces, 2015, 7, 17433–17440.
(25) S. Tang, B. O. Yang*, L.Y. Yang, W. Ji, Synthesis of MoO2 hierarchical peony-like microspheres without a template and their application in lithium ion batteries, RSC Adv., 2015, 5, 50705-50710
(26) J. Li, L. Y. Yang, J. K. Jian, H. Zou, Y. F. Sun, Effects of Sn-doping on morphology and optical properties of CdTe polycrystalline films, J. Semiconductors 2009, 30, 112003
(27) D. Peng, S. Beysen*, Q. Li, Y. Sun, L.Y. Yang, Hydrothermal Synthesis of Monodisperse and Uniform α-Fe2O3 Hexagonal Platelets, Particuology, 2010, 8, 386-389