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[32] Enbo Shangguan*, Peiying Fu, Sashuang Ning, Chengke Wu, Jing Li*, Xiaowu Cai, Zhenhui Wang, Mingyu Wang, Xiaoguang Li, QuanminLi, ZnAl-layered double hydroxide nanosheets-coated ZnO@C microspheres with improved cycling performance as advanced anode materials for zinc-based rechargeable batteries, Journal of Power Sources 422 (2019) 145–155.(SCI一区TOP, IF:6.945)
[31]Enbo Shangguan *, Shuqian Fu , Chengke Wu , Xiaowu Cai , Jing Li*, Zhaorong Chang , Zhenhui Wang , Quanmin Li, Sublimed sulfur powders as novel effective anode additives to enhance the high-rate capabilities of iron anodes for advanced iron based secondary batteries. Electrochimica Acta 301 (2019) 162-173. (SCI一区TOP, IF:5.116)
[30] Yihui Li, Kun Chang,* Enbo Shangguan, Donglei Guo, Wei Zhou, Yan Hou, Hongwei Tang, Bao Lia and Zhaorong Chang, Powder exfoliated MoS2 nanosheets with highly monolayer-rich structures as high-performance lithium-/sodium-ion-battery electrodes Nanoscale, 11(2019) 1887. (SCI一区TOP, IF:7.233)
[29]Enbo Shangguan,*, Qin Wang, Chengke Wu, Siqi Wu, Mengting Ji, Jing Li,* Zhaorong Chang, Quanmin Li, Novel Application of Repaired LiFePO4 as a Candidate Anode Material for Advanced Alkaline Rechargeable Batteries. ACS Sustainable Chem. Eng. 6(2018)13312−13323. (SCI二区TOP, IF:6.140)
[28]Enbo Shangguan*, Shuqian Fu, Siqi Wu, Qin Wang, Chengke Wu, Jing Li*, Xiaowu Cai, Zhaorong Chang, Zhenhui Wang, Quanmin Li, Kai Jiang*, Evolution of spent LiFePO4 powders into LiFePO4/C/FeS composites: A facile and smart approach to make sustainable anodes for alkaline Ni-Fe secondary batteries. Journal of Power Sources 403 (2018) 38–48.(SCI一区TOP, IF:6.945)
[27] Jing Li, Litan Guo, Enbo Shangguan*, Mingzhu Yue, Min Xu, Dong Wang, Zhaorong Chang, Quanmin Li. Synthesis of novel spherical Fe3O4@Ni3S2 composite as improved anode material for rechargeable nickel-iron batteries. Electrochimica Acta. 240(2017)256-265.(SCI一区TOP, IF:5.116)
[26]Xiaoning Fu, Kun Chang, Bao Li, Hongwei Tang,Enbo Shangguan, Zhaorong Chang, Low-temperature synthesis of LiMnPO4/RGO cathode material with excellent voltage platform and cycle performance. Electrochimica Acta. 225(2017)272-282.(SCI一区TOP, IF:5.116)
[25] Jing Li, Tonghui Zhao, Enbo Shangguan*,Yao Li, Linqian Li, Mingyu Wang, Zhaorong Chang, Quanmin Li. Enhancing the rate and cycling performance of spherical ZnO anode material for advanced zinc-nickel secondary batteries by combined in-situ doping and coating with carbon. Electrochimica Acta. 236(2017)180-189.(SCI一区TOP, IF:5.116)
[24] Xiaoya Liu, Enbo Shangguan*, Jing Li, Sashuang Ning, Litan Guo, Quanmin Li*, A novel electrochemical sensor based on FeS anchored reduced graphene oxide nanosheets for simultaneous determination of dopamine and acetaminophen.Materials Science and Engineering: C, 70 (2017) 628–636.(SCI二区TOP, IF:5.080)
[23] Enbo Shangguan*, Litan Guo; Fei Li; Qin Wang; Jing Li*; Quanmin Li; Zhaorong Chang; Xiao-Zi Yuan. FeS anchored reduced graphene oxide nanosheets as advanced anode material with superior high-rate performance for alkaline secondary batteries.J. Power Sources. 327 (2016)187-195.(SCI一区TOP, IF:6.945)
[22] Jing Li, Enbo Shangguan*, Dan Guo, Fengli Gao, Quanmin Li*, Xiao-Zi Yuan, HaijiangWang. Influence of acidity and auxiliary electrode reaction on the oxidation of epinephrine on the pre-anodized carbon paste electrode. Electrochimica Acta, 186 (2015)209-215(SCI一区TOP, IF:5.116)
[21] E.B. Shangguan*, F. Li, J. Li, Z.R. Chang, Q.M. Li*, X.Z. Yuan, H.J.Wang. FeS/C composite as high-performance anode material for alkaline Nickel-iron rechargeable batteries. J. Power Sources. 291 (2015)29-39. (SCI一区TOP, IF:6.945)
[20] E.B.Shangguan*, J. Li, D. Guo, L.T. Guo, M.Z. Nie, Z.R.Chang, X.Z. Yuan, H.J. Wang. A comparative study of structural and electrochemical properties of high-density aluminum substituted a-nickel hydroxide containing different interlayer anions. J. Power Sources. 282 (2015) 158-168.(SCI一区TOP, IF:6.945)
[19] T.H. Zhao, Enbo Shangguan*, Y. Li, J. Li*, Z.R. Chang, Q.M. Li, X.Z. Yuan, H.J. Wang. Facile synthesis of high tap density ZnO microspheres as advanced anode material for alkaline nickel-zinc rechargeable batteries. Electrochimica Acta, 182 (2015)173-182. (SCI一区TOP, IF:5.116)
[18] F.Li, E.B. Shangguan*, J. Li, L.J. Li, J. Yang, Z.R. Chang, Q.M. Li, X.Z. Yuan, H.J. Wang. Influence of annealing temperature on the structure and electrochemical performance of the Fe3O4 anode material for alkaline secondary batteries. ElectrochimicaActa, 178( 2015)34–44.(SCI一区TOP, IF:5.116)
[17] J. Li, E.B. Shangguan*, M.Z. Nie, Q.X.Jin, K. Zhao, Z.R. Chang, X.Z. Yuan, H.J. Wang. Enhanced electrochemical performance of high-density Al-substituted a-nickel hydroxide by a novel anion exchange method using NaCl solution. Int J Hydrogen Energy. 40 (2015) 1852-1858. (SCI二区TOP, IF:4.229)
[16] G.L.Fu, K. Chang*, E.B. Shangguan, H.W. Tang, B. Li, Z.R.Chang *, X.Z.Yuan, H.J. Wang. Synthesis of CoO/Reduced Graphene Oxide Composite as an Alternative Additive for the Nickel Electrode in Alkaline Secondary Batteries. Electrochimica Acta,180 (2015) 373–381. (SCI一区TOP, IF:5.116)
[15] X.N.Fu, Z.R. Chang*, K. Chang, B. Li, H.W.Tang, E.B. Shangguan, X.Z.Yuan, H.J. Wang. Glucose assisted synthesis of hollow spindle LiMnPO4/C nanocomposites for high performance Li-ion batteries. Electrochimica Acta,178(2015) 420-428. (SCI一区TOP, IF:5.116)
[14] H.W. Tang, Y.L.Si, K. Chang*, X.N. Fu, B. li, E.B. Shangguan, Z.R.Chang*, X.Z. Yuan, H.J. Wang. Carbon gel assisted low temperature liquid-phase synthesis of C-LiFePO4/grapheme layers with high rate and cycle performances J. Power Sources. 295 (2015) 131–138. (SCI一区TOP, IF:6.945)
[13] J.Li, E.B. Shangguan*, D. Guo, M. Tian , Y.B. Wang, Q.M. Li, Z.R. Chang*, X.Z. Yuan, H.J. Wang.Synthesis, characterization and electrochemical performance of high-density aluminum substituted α-nickel hydroxide cathode material for nickel-based rechargeable batteries. J. Power Sources. 270 (2014) 121–130. (SCI一区TOP, IF:6.945)
[12] J.Li, E.B. Shangguan*, D. Guo, Q.M. Li, Z.R. Chang﹡, X.Z. Yuan, H.J. Wang. Calcium metaborate as a cathode additive to improve the high-temperature properties of nickel hydroxide electrodes for nickel-metal hydride batteries. J. Power Sources. 263 (2014) 110–117. (SCI一区TOP, IF:6.945)
[11] D.Guo, E.B. Shangguan*,J. Li, T.H. Zhao, Z.R. Chang, Q.M. Li﹡, X.Z. Yuan, H.J. Wang. Effects of γ-CoOOH coating on the high-temperature and high-rate performances of spherical nickel hydroxide electrodes. Int J Hydrogen Energy,39 (2014) 3895-3903. (SCI二区TOP, IF:4.229)
[10] J.Li, F.L. Gao, E.B.Shangguan*, Q.M. Li﹡, The influencing mechanism of acidity on the oxidation peak currents of guanine and uric acid: hydrogen bond catalysis and degree of auxiliary electrode reduction reaction. Electrochimica Acta,136 (2014) 377-384. (SCI一区TOP, IF:5.116)
[9] E.B. Shangguan*,J. Li, D. Guo, Z.R. Chang﹡, X.Z. Yuan, H.J. Wang. Effects of different electrolytes containing Na2WO4 on the electrochemical performance of nickel hydroxide electrodes for nickel-metal hydride batteries. IntJ Hydrogen Energy, 39 (2014) 3412-3422. (SCI二区TOP, IF:4.229)
[8] E.B.Shangguan*, J.L.Wang, J. Li, D. Guo, Z.R. Chang﹡, X.Z. Yuan, H.J. Wang.. Enhancement of the high-temperature performance of advanced nickel-metal hydride batteries with NaOH electrolyte containing NaBO2. Int J Hydrogen Energy, 38 (2013)10616-10624. (SCI二区TOP, IF:4.229)
[7] E.B. Shangguan*,J. Li, Z.R. Chang﹡, H.W. Tang, B. Li, X.Z. Yuan,H.J. Wang. Sodium tungstate as electrolyte additive to improve high-temperature performance of Nickel-metal hydride batteries. Int J Hydrogen Energy.38 ( 2013)5133-5138. (SCI二区TOP, IF:4.229)
[6] J.E. Huo, E.B. Shangguan, Q.M. Li﹡. A pre-anodized inlaying ultrathin carbon paste electrode for simultaneous determination of uric acid and folic acid. Electrochimica Acta, 89 (2013) 600-606. (SCI一区TOP, IF:5.116)
[5] E.B. Shangguan, Z.R. Chang﹡,H.W. Tang, X.Z. Yuan, H.J. Wang. Regulation of the discharge reservoir of negative electrodes in Ni–MH batteries by using Ni(OH)x(x=2.10) and γ-CoOOH. J. Power Sources.196 (2011) 7791-7796. (SCI一区TOP, IF:6.945)
[4] E.B.Shangguan, Z.R. Chang﹡,H.W. Tang, X.Z. Yuan, H.J. Wang. Comparative structural and electrochemical study of high density spherical and non-spherical Ni(OH)2 as cathode materials for Ni–MH batteries. J.Power Sources.196 ( 2011)7797-7805.(SCI一区TOP, IF:6.945)
[3] E.B.Shangguan, H.W. Tang, Z.R. Chang﹡, X.Z. Yuan, H.J. Wang. Effects of different Ni(OH)2 precursors on the structure and electrochemical properties of NiOOH. Int J Hydrogen Energy.36(2011)10057-10064. (SCI二区TOP, IF:4.229)
[2] Enbo Shangguan, Zhaorong Chang﹡, Hongwei Tang, Xiao-Zi Yuan, Haijiang Wang. Synthesis and characterization of high-density non-spherical Ni(OH)2 cathode material for Ni–MH batteries. Int J Hydrogen Energy. 35 (2010) 9716-9724. (SCI二区TOP, IF:4.229)
[1] Enbo Shangguan, Zhaorong Chang﹡, Hongwei Tang, Xiao-Zi Yuan, Haijiang Wang. Preparation of nickel oxyhydroxide by a new electrolysis method using spherical β-Ni(OH)2. Int J Hydrogen Energy. 35 (2010)3214-3220. (SCI二区TOP, IF:4.229)
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