(1)Shu-Lei Chou, Jia-Zhao Wang, Hua-Kun Liu, Shi-Xue Dou,《锂离子电池用纳米/复合材料》(Nano/composite Materials for Lithium-Ion Batteries),第13章,收录于《纳米结构材料的尺寸与形状控制及其应用》(Controlled Size and Shape of Nanostructured Materials and Their Applications),主编:Rushi Liu,泛斯坦福出版有限公司(Pan Stanford Publishing Pty Ltd),2011年。
(2)Yi Shi, Jia-Zhao Wang, Shulei Chou, Hua-Kun Liu,《石墨烯纳米复合材料在锂电池中的应用》(Graphene Nanocomposites for Lithium Battery Application),第9章,收录于《石墨烯科学手册》(Graphene Science Handbook),CRC出版社(泰勒-弗朗西斯集团,CRC Press Taylor & Francis Group),2016年。
代表性同行评审期刊论文
王佳兆(Jiazhao Wang)博士已发表论文300余篇,总引用>30,000次,H指数=95(数据来源:Google Scholar,2025年2月)。
1.Y. Gao, X. Zhang, H. Zhang, J. Peng§, W. Hua, Y. Xiao, X.H. Liu, L. Li, Y. Qiao, J. Z. Wang, C. F. Zhang†, S. L. Chou†, “Zero‐Waste Polyanion and Prussian Blue Composites toward Practical Sodium‐Ion Batteries”, Adv. Mater., 37 (2025) 2409782.
2.P. Zhou, Z. Zhao, J. Weng†, X. Wu, J. Zhou, Z. Niu†, R. Feng, X. Zhou, J. Z. Wang†, S. X. Dou, L. Li†, “Unlocking Charge Transfer Limitation toward Advanced Low-Temperature Sodium-Ion Batteries”, ACS Energy Lett., 10 (2024) 185-194.
3.L. Y. Kong, J. Y. Li§, H. X. Liu, Y. F. Zhu, J. Wang, Y. Liu, X. Y. Zhang, H. Y. Hu, H. Dong, Z. C. Jian, C. Cheng, S. Q Chen, L. Zhang, J. Z. Wang, S.L. Chou†, Y. Xiao†, “A universal interfacial reconstruction strategy based on converting residual alkali for sodium layered oxide cathodes: marvelous air stability, reversible anion redox, and Practical Full Cell”, J. Am. Chem. Soc., 146 (2024) 32317-32332.
4.H. Guo§, C. Wu§†, C. Shu, Z. Hu, F. Gebert, Q. F. Gu, K. Konstantinov, S. K. Sharma, A. T. Marshall, W. S. Yang, S. L. Chou†, H. K. Liu, J. Z. Wang†, “Phosphorous and Nitrogen Dual‐Doped Carbon as a Highly Efficient Electrocatalyst for Sodium‐Oxygen Batteries:, Chem. Eur. J. 30 (2024) e202304106.
5.S. Li, G. Xing, S. Zhao, J. Peng, L. Zhao, F. Hu, L. Li, J. Z. Wang, S. Ramakrishna, S. Peng†, “Fe-N co-doped carbon nanofibers with Fe3C decoration for water activation induced oxygen reduction reaction”, Natl Sci Rev., 11 (2024) nwae193.
6.Z. Zhou, Y. Qian, X. Chen, J. Chen, X. Zhou, W. Kuang, X. Shi, X. Wu, L. Li†, J. Z. Wang, S. L. Chou†, “Challenges and Strategies toward Manganese Hexacyanoferrate for High‐Performance Sodium‐Ion Batteries”, Adv. Funt. Mater., 34 (2024) 2404938.
7.K. Yuan†, Y. Lin, X. Li, Y. Ding, P. Yu†, J. Peng†, J. Z. Wang, H. K. Liu, S.X, Dou, “High‐Safety Anode Materials for Advanced Lithium‐Ion Batteries”, Energy Environ. Mater., 7 (2024) e12759.
8.J. Yao, Y. Li†, T. Xiong, Y. Fan, L. Zhao, X. Cheng, Y. Tian, L. Li, Y. Li, W. Zhang, P. Yu, P. Guo, Z. Yang, J. Peng†, L. Xue†, J. Z. Wang, Z. Li, M. Xie†, H. K. Liu, S. X. Dou, “Scalable Precise Nanofilm Coating and Gradient Al Doping Enable Stable Battery Cycling of LiCoO2 at 4.7 V”, Angew. Chem. Int. Ed., 136 (2024) e202407898.
9.Y. Tian, Y. Li†, H. Shen, X. Cheng, Y. Cheng, W. Zhang, P. Yu, Z. Yang, L. Xue, Y. Fan, L. F. Zhao, J. Peng§†, J. Z. Wang, Z. H. Li†, M. Xie†, H. K. Liu, S. X. Dou, “Regulation of Interface Ion Transport by Electron Ionic Conductor Construction toward High-Voltage and High-Rate LiNi0.5Co0.2Mn0.3O2 Cathodes in Lithium Ion Battery”, Adv Sci. 11 (2024) 2402380.
10.W. Kuang, X. Zhou, Z. Fan, X. Chen, Z. Yang, J. Chen, X. Shi, L. Li†, R. Zeng†, J. Z. Wang, S. L. Chou†, “Sulfur-Containing Inorganic-Rich Interfacial Chemistry Empowers Advanced Sodium-Ion Full Batteries”, ACS Energy Lett., 9 (2024) 4111-4118.
11.J. Peng§, W. Hua, Z. Yang, J. Y. Li, J. Wang, Y. Liang, L. Zhao, W. Lai, X. Wu, Z. X. Cheng, G. Peleckis, S. Indris, J. Z. Wang†, H. K. Liu, S. X. Dou, S. L. Chou†, “Structural engineering of Prussian blue analogues enabling all-climate and ultralong cycling sodium-ion batteries”, ACS nano 18 (2024) 19854-19864.
12.J. Y. Li§, H. Y. Hu, H. W. Li, Y. F. Liu, Y. Su, X. B. Jia, L. F. Zhao, Y. M. Fan, Q. F. Gu. H. Zhang, W. K. Pang†, Y. F. Zhu†, J. Z. Wang, S. X. Dou, S. L. Chou†, Y. Xiao†, “Interfacial spinel local interlocking strategy toward structural integrity in P3 oxide cathodes”, JACS nano 18 (2024) 12945-12956.
13.X. Yang, J. Peng§†, L. Zhao, H. Zhang, J. Li, P. Yu†, Y. Fan, J. Z. Wang†, H. Liu, S. Dou, “Insights on advanced g‐C3N4 in energy storage: Applications, challenges, and future”, Carbon Energy 6 (2024) e490.
14.J. Wu, G. Wang, W. Zhang†, L. Wang, J. Peng§, Q. Li, Z. Liang, W. Fan, J. Z. Wang, S. Huang†, “Universal architecture and defect engineering dual strategy for hierarchical antimony phosphate composite toward fast and durable sodium storage”, J. Energy Chem. 90 (2024) 110-119.
15.G. Wang, J. Peng§, W. Zhang†, Q. Li, Z. Liang, J. Wu, W. Fan, J. Z. Wang, S. Dou, S. Huang†, “Te-vacancy-rich CoTe2− x anodes for efficient potassium-ion storage”, Chem Eng J., 483 (2024) 149436.
16.Y. F. Liu, H. Y. Hu, J. Y. Li, H. Wang, Y. Zhao, J. Wang, Y. B. Wu, Y. J. Li, G. Y. Zhang, Q. Q. Sun, Y. F. Zhu†, R. R. Tang, X. W. Wu†, J. Z. Wang, S. X. Dou, S. L. Chou†, Y. Xiao†, “An air-stable single-crystal layered oxide cathode based on multifunctional structural modulation for high-energy-density sodium-ion batteries”, Sci. China. Chem., 2024, 67.
17.Q. Yang, X. Zhou, T. Huang†, Z. Chen, Y. Zhang, S. Shi, W. Zhang, L. Li†, J. Z. Wang, S. Dou, K. Lei†, S. Zheng†, “Latent Solvent‐Induced Inorganic‐Rich Interfacial Chemistry to Achieve Stable Potassium‐Ion Batteries in Low‐Concentration Electrolyte”, Angew. Chem. Int. Ed., 2024, e202422259.
18.Z. Zheng, X. Fang, W. Deng, P. Li, X. Zheng, H. Zhang, L. Li, S. Chou, Y. Chen†, Y. Tang†, J. Z. Wang†, “Quantitatively detecting and characterizing metallic lithium in lithium-based batteries”, Energy Environ. Sci., 17 (2024) 9051-9092.
19.J. F. Ruan, Y. J. Lei, Y. Fan, M. C. Borras, Z. X. Luo, Z. C. Yan, B. Johannessen, Q. F. Gu, K. Konstantinov, W. K. Pang†, W. P. Sun, J. Z. Wang, H. K. Liu, W. H. Lai†, Y. X. Wang†, S. X. Dou, “Linearly Interlinked Fe-Nx-Fe Single Atoms Catalyze High-Rate Sodium-Sulfur Batteries”, Adv. Mater., 36 (2024) 2312207.
20.L. Lin, L. Huang, C. Wu, Y. Gao, N. Miao, C. Wu, A.T. Marshall, Y. Zhao, J. Z. Wang, J. Chen, S. X. Dou, G. G. G. Wallace, W. Huang, “Lattice Distortion and H‐passivation in Pure Carbon Electrocatalysts for Efficient and Stable Two‐electron Oxygen Reduction to H2O2”, Angew. Chem. Int. Ed., 62 (2023) e20231518.
21.L. Wang, Z. Xu, C.H. Kuo, J. Peng F, F. Hu, L. Li, H.Y. Chen, J. Z. Wang, S. Peng, “Stabilizing low‐valence single atoms by constructing metalloid tungsten carbide supports for efficient hydrogen oxidation and evolution”, Angew. Chem. Int. Ed., 62 (2023) e202311937.
22.H. Zhang§, Y. Gao, J. PengF, Y. Fan, L. Zhao, L. Li, Y. Xiao, W.K. Pang, J. Z. Wang†, Shu‐Lei Chou, “Prussian Blue Analogues with Optimized Crystal Plane Orientation and Low Crystal Defects toward 450 Wh kg−1 Alkali‐Ion Batteries”, Angew. Chem. Int. Ed., 62 (2023), e202303953.
23.J. PengF, J. Huang, Y. Gao, Y. Qiao, H. Dong, Y. Liu, L. Li, J. Z. Wang†, S.X. Dou, Shulei Chou “Defect‐Healing Induced Monoclinic Iron‐Based Prussian Blue Analogs as High‐Performance Cathode Materials for Sodium‐Ion Batteries”, Small 19 (2023) 2300435.
24.H. Zhang, Y. Gao, X. Liu, L. Zhou, J. Li, Y. Xiao, J. Peng, J. Z. Wang†, S.L. Chou, “Long‐Cycle‐Life Cathode Materials for Sodium‐Ion Batteries toward Large‐Scale Energy Storage Systems” Adv. Energy Mater., 13 (2023) 2300149.
25.Q. Li, J. Peng F, W. Zhang, L. Wang, Z. Liang, G. Wang, J. Wu, W. Fan, H. Li, J. Z. Wang, S. M. Huang, “Manipulating the Polytellurides of Metallic Telluride for Ultra‐Stable Potassium‐Ion Storage: A Case Study of Carbon‐Confined CoTe2 Nanofibers”, Adv. Energy Mater., 13 (2023) 23001502300150.
26.J.Y. Li§, H.Y. Hu, L.F. Zhou, H.W. Li, Y. J. Lei, W. H. Lai, Y.M. Fan, Y.F. Zhu, G. Peleckis, S. Q. Chen, W. K. Pang, J. PengF, J. Z. Wang†, S. X. Dou, S. L. Chou, Y. Xiao, “Surface Lattice‐Matched Engineering Based on In Situ Spinel Interfacial Reconstruction for Stable Heterostructured Sodium Layered Oxide Cathodes”, Adv. Funct. Mater. 33 (2023) 2370086.
27.J. PengF, B. Zhang, W. Hua, Y. Liang, W. Zhang, Y. Du, G. Peleckis, S. Indris, Q. Gu, Z. Cheng, J. Z. Wang†, H. K. Liu, S, X. Dou, S. L. Chou†, “A Disordered Rubik's Cube‐Inspired Framework for Sodium‐Ion Batteries with Ultralong Cycle Lifespan”, Angew. Chem. Int. Ed., 62 (2023) e202215865.
28.H. Zhang§, J Peng†, L Li, Y Zhao, Y Gao, J. Z. Wang†, Y Cao, S. X. Dou, S. L. Chou†, “Low‐Cost Zinc Substitution of Iron‐Based Prussian Blue Analogs as Long Lifespan Cathode Materials for Fast Charging Sodium‐Ion Batteries”, Adv. Funct. Mater., 33 (2023) 2210725.
29.C. Wu§, Q. Yang, Z. Zheng, L. Jia, Q. Fan, Q. Gu, J. Li, S. Sharma, H.K. Liu, W. S. Yang, J. Chen†, J, Z. Wang†, “Boosting Na-O2 battery performance by regulating the morphology of Na-O2”, Energy Storage Materials 54 (2023) 1–9.
30.J. Li, H. Hu, J. Wang, Y. Xiao, “Surface chemistry engineering of layered oxide cathodes for sodium‐ion batteries”, Carbon Neutralization 1 (2022), 96-116.
31.J Peng§, Y. Gao, H. Zhang, Z. Liu, W. Zhang, L Li†, Y. Qiao†, W. Yang, J. Z. Wang†, S. X. Dou, S. L. Chou†, “Ball Milling Solid‐State Synthesis of Highly Crystalline Prussian Blue Analogue Na2−xMnFe(CN)6 Cathodes for All‐Climate Sodium‐Ion Batteries”, Angew. Chem.Int. Ed., 61 (2022) e2022058.
32.H§. Zhang, Y. Gao, M. Chen, L. Li†, L. Li, Y. Qiao, W. Li, J.Z. Wang†, SL Chou†, “Organic Small Molecules with Electrochemical‐Active Phenolic Enolate Groups for Ready‐to‐Charge Organic Sodium‐Ion Batteries”, Small Methods 6 (2022) 2200455.
33.X. Liang, L. Wang, X. Wu, X. Feng, Q. Wu, Y. Sun, H. Xiang†, J. Z. Wang†, “Solid-state electrolytes for solid-state lithium-sulfur batteries: Comparisons, advances and prospects”, Journal of Energy Chemistry.
34.Q§. Fan, J. Z. Wang†, “Operando scattering techniques for detecting precipitation reactions in lithium-sulfur batteries”, Chem 8 (2022), 1173-1175.
35.J. Peng§, W. Zhang†, Q Liu, J. Z. Wang†, S. L. Chou†, H. K. Liu, S. X. Dou, “Prussian Blue analogues for sodium‐ion batteries: past, present, and future”, Advanced Materials 34 (15), 2108384.
36.J. Peng§, W. Zhang, S. Wang, Y. Huang, J. Z. Wang, H.K. Liu, S.X. Dou, S.L. Chou, “The emerging electrochemical activation tactic for aqueous energy storage: fundamentals, applications, and future”, Advanced Functional Materials 32 (2022) 2111720.
37.C. HanF, W. Li, J. Z. Wang, Z. Huang†, “Boron leaching: Creating vacancy-ric'h Ni for enhanced hydrogen evolution, Nano Research 15 (2022), 1868-1873.
38.J. Peng§, W. Zhang, Z. Hu, L. Zhao, C. Wu, G. Peleckis, Q. Gu, J. Z. Wang†, H.K. Liu, S.X Dou, S.L. Chou†, “Ice-Assisted Synthesis of Highly Crystallized Prussian Blue Analogues for All-Climate and Long-Calendar-Life Sodium Ion Batteries”, Nano Letters 22 (2022), 1302-1310.
39.J. Peng§, W. Zhang, Q. Liu, J. Z. Wang†, S.L. Chou†, H.K. Liu, S.X. Dou, “Prussian blue analogues for sodium‐ion batteries: past, present and future”, Adv. Mater., 2022, 2108384.
40.J. Peng§, W. Zhang, J.S. Wang, L. Li, W. Lai, Q Yang, B Zhang, X Li, Y Du, H Liu, J. L. Wang, Z.X. Cheng, L. Wang, S. Wang, J. Z. Wang†, S.L. Chou, H.k. Liu, S. X Dou, “Processing Rusty Metals into Versatile Prussian Blue for Sustainable Energy Storage, Adv. Energy Mater., 11 (2021), 2102356.
41.Q. Fan§, J. Jiang, S. Zhang, T. Zhou, W.K. Pang, Q. Gu, H. Liu, Z, Guo†, J. Z. Wang†, , 2019 “Accelerated Polysulfide Redox in Binder‐Free Li2S Cathodes Promises High‐Energy‐Density Lithium–Sulfur Batteries”, Advanced Energy Materials 11 (2021), 2100957.
42.Z. Zheng§, C. Wu, Q. Gu, K. Konstantinov, J. Z. Wang†, “Research Progress and Future Perspectives on Rechargeable Na‐O2 and Na‐CO2 Batteries”, Energy & Environmental Materials 4 (2021)158-177.
43.L. Liu§, T. Ma, W. Fang, Y. Liu, K. Konstantinov, J. Z. Wang†, HK Liu, “Facile Fabrication of Ag Nanocrystals Encapsulated in Nitrogen‐doped Fibrous Carbon as an Efficient Catalyst for Lithium Oxygen Batteries”, Energy & Environmental Materials 4 (2021) 239-245.
44.Z. Zheng§, C. Wu, Q. Gu, K. Konstantinov, J. Z. Wang†, “Research Progress and Future Perspectives on Rechargeable Na‐O2 and Na‐CO2 Batteries” Energy & Environmental Materials 4 (2021) 158-177
45.Z. Zheng§, J. Jiang, H. Guo, C. Li, K. Konstantinov, Q. Gu, J. Z. Wang†, “Tuning NaO2 formation and decomposition routes with nitrogen-doped nanofibers for low overpotential Na-O2 batteries”, Nano Energy 81(2021) 105529.
46.J. Jiang§, Q. Fan, S. Chou, Z. Guo, K. Konstantinov, H. Liu, J. Z. Wang†, “Li2S‐Based Li‐Ion Sulfur Batteries: Progress and Prospects”, Small 17 (2021)1903934.
47.L. Liu§, H. Guo, L. Fu, S. Chou, S. Thiele, Y. Wu, J. Z. Wang†, “Critical Advances in Ambient Air Operation of Nonaqueous Rechargeable Li–Air Batteries, Small 17 (2021) 1903854.
48.C. HanF, W. Li, H.K. Liu, S Dou, J. Z. Wang†, “Principals and strategies for constructing a highly reversible zinc metal anode in aqueous batteries”, Nano Energy, 74 (2020) 104880.
49.F. Li§, M.R. Kaiser, J. Ma, Y. Hou, T. Zhou, Z. Han, W. Lai, J. Chen, Z. Guo, H. Liu, J. Z. Wang†, “ Uniform Polypyrrole Layer-Coated Sulfur/Graphene Aerogel via the Vapor-Phase Deposition Technique as the Cathode Material for Li–S Batteries”, ACS Appl. Mater. & Interfaces 12 (2020) 5958-5967.
50.C. Wu§, Y. Hou, J. Jiang, H. Guo, H.K. Liu, J. Chen, J. Z. Wang†, “Heterostructured Mo2C–MoO2 as highly efficient catalyst for rechargeable Li–O2 battery” , J. Power Sources, 470 (2020) 228317.
51.H. Gao§, X. Gao, N. Yu, Z. Zheng, W. Luo, C. Wu, H.K. Liu, J. Z. Wang†, “Metallic state two-dimensional holey-structured Co 3 FeN nanosheets as stable and bifunctional electrocatalysts for zinc–air batteries”, J. Mater. Chem. A, 7 (2019), 26549-26556.
52.J. Jiang§, Q. Fan, Z. Zheng, M.R. Kaiser, Q. Gu, S. Chou, K. Konstantinov, J. Z. Wang†, “Nanostructured CoS2-decorated Hollow Carbon Spheres-A Performance Booster for Li-ion/Sulfur Batteries”, ACS Appl. Energy Mater., 3 (2020), 6447–6459.
53.W.H. Lai§, Z. Zheng, W. Wang, L. Wang, Y.J. Lei, Y.X. Wang, J. Z. Wang†, H.K. Liu, S.L. Chou†, S. X. Dou, “Self-assembling RuO2 nanogranulates with few carbon layers as an interconnected nanoporous structure for lithium–oxygen batteries”, Chem. Commun. 53 (2020).
54.W.H. Lai§, Z. Miao, Y.X. Wang, J. Z. Wang, S.L. Chou†, “Atomic‐Local Environments of Single‐Atom Catalysts: Synthesis, Electronic Structure, and Activity”, Adv. Energy Mater. 9 (2019), 1900722.
55.J. Jiang§, Q. Fan, S.L. Chou, Z. P. Guo, K Konstantinov, H. K. Liu, J.Z. Wang†, “Li2S‐Based Li‐Ion Sulfur Batteries: Progress and Prospects”, Small, (2019) 1903934.
56.M. R. Kaiser§, Z. Han†, J. Z. Wang†, “Electro-polymerized polypyrrole film for fabrication of flexible and slurry-free polypyrrole-sulfur-polypyrrole sandwich electrode for the lithium-sulfur battery”, J. Power Sources 437 (2020) 226925.
57.L. Liu§, H. Guo, L. Fu, S.L. Chou, S. Thiele, Y.P. Wu, J. Z. Wang†, “Critical Advances in Ambient Air Operation of Nonaqueous Rechargeable Li–Air Batteries”, Small, (2019) 1903854.
58.W.H. Lai§, L.F. Zhang, W.B. Hua, S. Indris, Z.C. Yan, Z. Hu, B. Zhang, Y. Liu, Z. C. Yan, Z. Hu, B. Zhang, Y. Liu, L. Wang, M. Liu, R. Liu, Y.X. Wang, J. Z. Wang, Z. Hu, H. K. Liu, S. L. Chou, S. X. Dou, “General π‐Electron‐Assisted Strategy for Ir, Pt, Ru, Pd, Fe, Ni Single‐Atom Electrocatalysts with Bifunctional Active Sites for Highly Efficient Water Splitting”, Angew. Chem.Int. ED. 131 (2019) 11994-11999.
59.C. Han, W. Li, C. Shu, H. Guo, H.K. Liu, S.X. Dou, J.Z. Wang†, “Catalytic activity boosting of nickel sulfide toward oxygen evolution reaction via confined overdoping engineering”, ACS Applied Energy Mater.2 (2019), 5363-5372.
60.M.R. Kaiser§, Z. Han, J. Liang, S.X. Dou, J.Z. Wang†, “Lithium sulfide-based cathode for lithium-ion/sulfur battery: Recent progress and challenges”, Energy Storage Materials 19 (2019) 1-15.
61.C. Han, W. Li, H.K. Liu, S.X. Dou, J. Z. Wang†, “Design strategies for developing non-precious metal based bi-functional catalysts for alkaline electrolyte based zinc–air batteries”,Mater. Horiz. 6 (2019), 1812-1827.
62.W. Lai§, Y.X. Wang, Y. Wang, M. Wu†, J. Z. Wang†, H.K. Liu, S.L. Chou†, J. Chen†,.S.X Dou, “Morphology tuning of inorganic nanomaterials grown by precipitation through control of electrolytic dissociation and supersaturation”. Nature chemistry 11 (2019) 695.
63.W.H. Lai§, B.W. Zhang, Z. Hu, X.M. Qu, Y.X. Jiang, Y. X. Wang†, J. Z. Wang†, H.K. Liu, Shu-Lei Chou†, “The Quasi‐Pt‐Allotrope Catalyst: Hollow PtCo@single‐Atom Pt1 on Nitrogen‐Doped Carbon toward Superior Oxygen Reduction”, Advanced Functional Materials 29 (2019) 1807340.
64.C.Z. Shu, J. Long, S.X. Dou, J. Z. Wang†, “Lithium–Oxygen Batteries: Component‐Interaction Reinforced Quasi‐Solid Electrolyte with Multifunctionality for Flexible Li–O2 Battery with Superior Safety under Extreme Conditions”, Small 15 (2019)1970031.
65.C. Z. Shu, J. Z. Wang†, J. P. Long, H. K. Liu, and S. X. Dou†, “Understanding the Reaction Chemistry during Charging in the Aprotic Lithium-Oxygen Battery: Existing Problems and Solutions”, Adv. Mater., 2019, 31, 1804587.
66.C, Z. Shu, C. Wu, J. G. Long, H. Guo, S. X. Dou, J. Z. Wang†, “Highly reversible Li-O2 battery induced by modulating local electronic structure via synergistic interfacial interaction between ruthenium nanoparticles and hierarchically porous carbon”, Nano Energy, 57 (2019) 166-175.
67.Q. B. Xia§, Z. Lin, W. H. Lai, Y. F. Wang, C. Ma, Z. Yan, Q. Gu, W. Wei, J. Z. Wang, Z. Zhang, H.K. Liu, S.X. Dou, S. L. Chou, “2D Titania–Carbon Superlattices Vertically Encapsulated in 3D Hollow Carbon Nanospheres Embedded with 0D TiO2 Quantum Dots for Exceptional Sodium‐Ion Storage”, Angew. Chem. Int. Ed. 2019, 58, 14125 –14128.
68.F. Li§, M.R. Kaiser, J.M. Ma, Z.P. Guo, H.K. Liu, J.Z. Wang†, “Free-standing sulfur-polypyrrole cathode in conjunction with polypyrrole-coated separator for flexible Li-S batteries”, Energy Storage Materials 13 (2018) 312-322.
69.Y. Y. Hou§, Y. Liu, Z. Zhou, L. Liu, H. Guo, H. Liu, J.Z. Wang†, J. Chen†, “Metal-oxygen bonds: Stabilizing the intermediate species towards practical Li-air batteries”, Electrochimica Acta 259 (2018) 313.
70.H. P. Guo§, W. B. Luo, J. Chen, S.L Chou, H. K. Liu, J . Z. Wang†, “Review of Electrolytes in Nonaqueous Lithium–Oxygen Batteries”, Advanced Sustainable Systems, 2 (2018) 1700183.
71.H. P Guo§, BY Ruan, WB Luo, J Deng, J.Z. Wang†, HK Liu, SX Dou, Ultrathin and edge-nriched holey nitride nanosheets as bifunctional electrocatalysts for the oxygen and hydrogen evolution reactions, ACS Catal., 8 (2018) 9686.
72.M. R. Kaise, S. L. Chou, H. K. Liu, S. X. Dou, C. S Wang, J. Z. Wang†, “Structure-Property Relationships of Organic Electrolytes and their Effects on Li/S Battery Performance”, Adv. Mater., 29 (2017) 1700449.
73.Y. Shi§, Y.i Zhang, L.L. Liu, Z. Z. Zhang, J. Wang, S. L.i Chou, J. Gao, H. D Abruña, H. J. Li, H.K. Liu, D. Wexler, J. Z. Wang†, Y. P. Wu†, “Rapid hydrothermal synthesis of Li3VO4 with different favored facets”, J Solid State Electrochem., 21 (2017) 2547-2553.
74.L. L. Liu§ , H. P. Guo, Y. Y. Hou, J. Wang, L. J. Fu , J. Chen, H. K. Liu, J. Z. Wang† and Y. P. Wu†, “A 3D hierarchical porous Co3O4 nanotube network as an efficient cathode for rechargeable lithium-oxygen batteries” J. Mater. Chem. A, 5 (2017) 14673.
75.Y. Y. Hou§, J. Z. Wang†, L. L. Liu, Y. Q. Liu, S. L. Chou, D. Q. Shi, H. K. Liu, Y. P. Wu, W. M. Zhang, J. Chen, “Mo2C/CNT as an Efficient Catalyst for Rechargeable Li-CO2 Batteries”, Adv. Func. Mater. Adv. 27 (2017) 1700564.
76.H. P. Guo§, B. Y. Ruan, L. L. Liu, L. Zhang, Z. L. Tao, S. L. Chou, J. Z. Wang†, H. K. Liu†, “ Capillary induced Ge Uniformly Distributed in N-doped Carbon Nanotubes with Enhanced Li-Storage Performance”, small 13 (2017) 1700920.
77.J. Wang§, L.L. Liu§, S. Chou, H.K. Liu, J.Z. Wang†. “A 3D porous nitrogen-doped carbon-nanofiber-supported palladium composite as an efficient catalytic cathode for lithium–oxygen batteries”. J. Mater. Chem. A, 5 (2017) 1462–1471.
78.T. V. Pham§, H.P. Guo, W. B. Luo†, S. L. Chou, J.Z. Wang†, and H. K. Liu. "Carbon-and binder-free 3D porous perovskite oxide air electrode for rechargeable lithium–oxygen batteries." J. Mater. Chem. A, 5 (2017) 5283-5289.
79.B. Y. Ruan, H. P. Guo, Y. Y. Hou, Q.N. Liu, Y. F .Deng, G. H. Chen, S. L. Chou, H. K. Liu, and J. Z. Wang†, “Carbon-Encapsulated Sn@N-Doped Carbon Nanotubes as Anode Materials for Application in SIBs”, ACS Appl. Mater. Interfaces, 9 (2017) 37682–37693.
80.W. B. Luo†, X. W. Gao, S. L. Chou, Y. M. Kang, J. Z. Wang, H. K. Liu, S. X. Dou, “Investigation of Promising Air Electrode for Realizing Ultimate Lithium Oxygen Battery”, Adv. Energy Mater. 2017, 7,1700234.
81.W. B. Luo, X.W. Gao§, D.Q. Shi, S.L. Chou†, J.Z. Wang†, H.K. Liu, “Binder‐Free and Carbon‐Free 3D Porous Air Electrode for Li-O2 Batteries with High Efficiency, High Capacity, and Long Life”, Small, 12 (2016) 3031-3038. (IF: 8.315)
82.L. Liu§, Y. Hou§, J. Wang§, J. Chen, H.K. Liu, Y.P. Wu†, J.Z. Wang†, “Nanofibrous Co3O4/PPy Hybrid with Synergistic Effect as Bifunctional Catalyst for Lithium‐Oxygen Batteries”, Adv. Mater. Interfaces, 3 (2016) 1600030. (IF: 3.365)
83.L. Liu§, J. Wang§, Y. Hou§, J. Chen, H.K. Liu, J.Z. Wang†, Y. Wu†, “Self‐Assembled 3D Foam‐Like NiCo2O4 as Efficient Catalyst for Lithium Oxygen Batteries”, Small 12 (2016), 602-611.
84.J. Wang§, L.L. Liu§, C. M. Subramaniyam, S. L. Chou, H. K. Liu, J. Z. Wang†, “A microwave autoclave synthesized MnO2/graphene composite as a cathode material for lithium–oxygen batteries”, J. Appl. Electrochem. 46 (2016) 869-878.
85.M. Wang§, Y. Hou§, R.C.T. Slade, J.Z. Wang†, D. Shi, D. Wexler, H.K. Liu, J. Chen†, “Core-shell Co/CoO integrated on 3D nitrogen doped reduced graphene oxide aerogel as an enhanced electrocatalyst for the oxygen reduction reaction”, Frontiers in Chemistry 4 (2016).
86.M.R. Kaiser§, X. Liang§, H.K. Liu, S.X. Dou, J.Z. Wang†, “A methodical approach for fabrication of binder-free Li2S-C composite cathode with high loading of active material for Li-S battery”, Carbon 103 (2016) 163-171.
87.B. Ruan§, H. Guo, Q. Liu, D. Shi, S. Chou, H. Liu, G. Chen, J.Z. Wang†, “3-D structured SnO2–polypyrrole nanotubes applied in Na-ion batteries”, RSC Advances 6 (2016) 103124-103131.
88.X. Liang§, M. Zhang§, M. R. Kaiser§, X. W. Gao§, K. Konstantinov, R. Tandiono, Z. X. Wang, H. K. Liu, S. X. Dou and J. Z. Wang†, “Split-half-tubular PPy@S@PPy Composite with a Novel Three-layer-3D Structure as Cathode for Lithium/Sulfur Batteries”, Nano Energy, (2015) 11, 587–599.
89.M. R. Kaiser§, J. Z. Wang†, X. Liang§, H. K. Liu, S. X. Dou, “A systematic approach to high and stable discharge capacity for scaling up the lithium–sulfur battery” Power Sources 279 (2015) 231-237.
90.X. W. Gao§, Y. Deng, D. Wexler, G. Chen, S. L. Chou, H. K. Liu, Z. Shi and J. Z. Wang†, “Improving the electrochemical performance of the LiNi0.5Mn1.5O4 spinel by polypyrrole coating as a cathode material for the lithium-ion battery”’, J. Mater. Chem. A, 3 (2015) 404-411.
91.Y. Shi§, Z. J. Zhang§, S. L. Chou, J. Gao, H. D. Abruña, D. Wexler, H. J. Li, H. K. Liu, Y. P. Wu, J. Z. Wang†, “Facile synthesis of porous V2O3/C composites as lithium storage material with enhanced capacity and good rate capability”, J. Power Sources, 2015, 275(1) 392-398.
92.M. R. Kaiser§, , X. Liang§, K. Konstantinov, H. K. Liu, S. X. Dou, and J. Z. Wang† "A Facile Synthesis of High‐Surface‐Area Sulfur–Carbon Composites for Li/S Batteries." Chemistry–A European Journal 21, no. 28 (2015): 10061-10069. (IF:5.771)
93.Wang, Xuefeng, Yurui Gao, Jiazhao Wang, Zhaoxiang Wang, and Liquan Chen†. "Chemical adsorption: another way to anchor polysulfides." Nano Energy 12 (2015): 810-815.
94.W. J. Li§, S.L. Chou†, J. Z. Wang, J.L. Wang, Q.F. Gu, H.K. Liu, S.X. Dou, “Multifunctional conducing polymer coated Na1+ xMnFe(CN)6 cathode for sodium-ion batteries with superior performance via a facile and one-step chemistry approach, Nano Energy, 13 (2015) 200-207.
95.W.B. Luo, X.W. Gao, S.L. Chou, J.Z. Wang, H.K. Liu, “Porous AgPd–Pd Composite Nanotubes as Highly Efficient Electrocatalysts for Lithium–Oxygen Batteries” Advanced Materials 27 (2015), 6862-6869.
96.W. J. Li§, S. L. Chou†, J. Z. Wang, Y. M. Kang, J. L. Wang, Y. Liu, Q.F. Gu, H.K. Liu, S. X. Dou, Facile Method To Synthesize Na-Enriched Na1+xFeFe(CN)6 Frameworks as Cathode with Superior Electrochemical Performance for Sodium-Ion Batteries, Chem. Mater., 27 (2015) 1997−2003.
97.Z. J. Zhang§, S. L. Chou, Q. F. Gu, H. K. Liu, H. J. Li, K. Ozawa and J. Z. Wang†, “Enhancing the High Rate Capability and Cycling Stability of LiMn2O4 by Coating of Solid-State-Electrolyte LiNbO3”, ACS Appl. Mater. Interfaces, 6 (2014) 22155-22165.
98. J. F. Li§, J. Z. Wang†, X. Liang, Z. J. Zhang, H. K. Liu, Y. Qian, S. L. Xiong, “Hollow MnCo2O4 Submicrospheres with Multilevel Interiors: From Mesoporous Spheres to Yolk-in-Double-Shell Structures”, ACS Appl. Mater. Interfaces, 6 (2014) 24−30.
99. Y. Shi§, J. Gao, H. Abruña, H. K. Liu, H. J. Li, J. Z. Wang†, Y.P. Wu†, “Rapid synthesis of Li4Ti5O12/graphene composite with superior rate capability by a microwave-assisted hydrothermal method”, Nano Energy, 8(2014) 297-304.
100. J. Wang§, J. Z. Wang†, Z. Q. Sun, X. W. Gao, C. Zhong, S. L. Chou, H. K. Liu†, “A germanium/single-walled carbon nanotube composite paper as a free-standing anode for lithium-ion batteries”, J. Mater. Chem. A. 2014, 2(13), 4613 – 4618.
101.C. Zhong§, J. Z. Wang†, D. Wexler, H. K. Liu, “Microwave autoclave synthesized multi-layer graphene/single-walled carbon nanotube composites for free-standing lithium-ion battery anodes”, Carbon 66 (2014) 637-645.
102.Y. Shi§, J. Gao, H. D. Abruna, H. Li, H. K. Liu, D. Wexler, J. Z. Wang†, Y. Wu, “The mechanism of one-step synthesis of hollow-structured Li3VO4 as an anode for lithium-ion batteries”, Chemistry: A European Journal, 20 (2014) 5608-5612.
103. W. Li, S. L. Chou, J. Z. Wang, J. Kim, H. K. Liu, S. X. Dou, “Sn4+xP3 @ amorphous Sn-P composites as anodes for sodium-ion batteries with low cost, high capacity, long life, and superior rate capability”, Adv. Mater., 26 (2014) 4037-4042.
104.J. Z. Wang†, L. Lu, M. Lotya, J. N. Coleman, S. L. Chou#, H. K. Liu, A. I. Minett, J. Chen, “Development of MoS2-CNT Composite Thin Film from Layered MoS2 for Lithium Batteries”, Adv. Energy Mater., 3 (2013) 798-805.
105.Y. Shi§, J. Z. Wang†, S. L. Chou, D. Wexler, H. J. Li, K. Ozawa, H. K. Liu, Y. P. Wu†, “Hollow Structured Li3VO4 Wrapped with Graphene Nanosheets in Situ Prepared by a One-Pot Template-Free Method as an Anode for Lithium-Ion Batteries”, Nano Letter, 13 (2013) 4715−4720.
106.L. Noerochim§†, J. Z. Wang†, D. Wexler, C. Zhong, H. K. Liu, “Rapid synthesis of free-standing MoO3/Graphene films by the microwave hydrothermal method as cathode for bendable lithium batteries”, J. Power Sources, 228 (2013) 198-205.
107.C. Zhong§†, J. Z. Wang†, X. W. Gao, D. Wexler, H. K. Liu, “In-situ one-step synthesis of 3D nanostructured germanium-graphene composite and its application in lithium-ion batteries”, J. Mater. Chem. A, 1(2013) 10798-10804.
108.Z. J. Zhang§, J. Z. Wang†, S. L. Chou, H. K. Liu, K. Ozawa, H. J. Li, “ Polypyrrole-coated α-LiFeO2 nanocomposite with enhanced electrochemical properties for lithium-ion batteries”, Electrochim. Acta, 108 (2013) 820-826.
109.Y. Shi§, S. L. Chou, J. Z. Wang†, H. J. Li, H. K. Liu, Y. P. Wu†, “In-situ hydrothermal synthesis of graphene woven VO2 nanoribbons with improved cycling performance”, J. Power Sources, 244 (2013) 684-689.
110.x)O(4) as cathode material for aqueous rechargeable lithium batteries”, Electrochimi. Acta 2013, 93 , 301– 306.
111.M. Wang§, W. Zhang, J. Z. Wang†, A. Minett, G. G. Wallace, V. Lo, H. K. Liu, J. Chen†, “Mesoporous Hollow PtCu Nanoparticles for Electrocatalytic Oxygen Reduction Reaction”, J. Mater. Chem. A, 1 (2013) 2391-2394.
112.X. W. Gao§, C. Q. Feng, S. L. Chou, J. Z. Wang†, J. Z. Sun, M. Forsythd, D. R. MacFarlanec, H. K. Liu, “LiNi0.5Mn1.5O4 spinel cathode using room temperature ionic liquid as electrolyte”, Electrochim. Acta, 101 (2013) 151– 157.
113.L. Noerochim§†, J. Z. Wang†, D. Wexler, M. M. Rahman, J. Chen, H. K. Liu, “Impact of mechanical bending on the electrochemical performance of bendable lithium batteries with paper-like free-standing V2O5–polypyrrole cathodes” J. Mater. Chem., 22 (2012) 11159-11165.
114.X. W. Gao§, J. Z. Wang†, S. L. Chou, H. K. Liu, “Synthesis and electrochemical performance of LiV3O8/polyaniline as cathode” material for the lithium battery” J. Power Sources, 220 (2012) 47-53 (IF: 6.333)
115.L. Noerochim§†, J. Z. Wang†, S. L. Chou, D. Wexler, H. K. Liu, “Free-standing single-walled carbon nanotube/SnO2 anode paper for flexible lithium-ion batteries”, Carbon, 50 (2012) 1289-97. (IF:6.198)
116.Y. Shi§, S. L. Chou, J. Z. Wang†, D. Wexler, H. J. Li, H. K. Liu and Y. P. Wu†, “Graphene wrapped LiFePO4/C composites as cathode materials for Li-ion batteries with enhanced rate capability” J. Mater. Chem., 22 (2012) 16465-16470. (IF: 8.262)
117.N. H. Idris§, M.. M. Rahman§, J. Z. Wang†, H. K. Liu,” Microporous gel polymer electrolytes for lithium rechargeable battery application”, J. Power Sources, 201 (2012) 294– 300. (IF: 6.333)
118.J. Z. Wang†, C. Zhong§, N. H. Idris§, D. Wexler, Z. X. Wang, L. Q. Chen, H. K. Liu, “Graphene Encapsulated Fe3O4 Nanoparticles with 3D Laminated Structure as Superior Anode in Lithium Ion Batteries”, Chem-EUR J, 17(2011) 661 – 667.
119.J. Z. Wang†, L. Lu§, M. Choucair, J. A Stride, X. Xu, H. K. Liu, “Sulfur-graphene composite for rechargeable lithium batteries, J. Power Sources, 196 (2011) 7030–7034 5.211).
120.M. M. Rahman§†, J. Z. Wang†, M. F. Hassan, S. L. Chou§, Z. Chen and H. K. Liu “Nanocrystalline porous a-LiFeO2–C composite—an environmentally friendly cathode for the lithium-ion battery”, Energy Environ. Sci., 4 (2011) 952–957.
121.M. M. Rahman§†, J. Z. Wang†, M. F. Hassan, D. Wexler, H. K. Liu, “Amorphous carbon coated high grain boundary density dual phase Li4Ti5O12-TiO2: A nanocomposite anode material for Li-ion batteries” Adv. Energy Mater., 1 (2011) 212-220.
122.S. L. Chou§†, J. Z. Wang†, H. K. Liu, and S. X. Dou, “Rapid Synthesis of Li4Ti5O12 Microspheres as Anode Materials and Its Binder Effect for Lithium-Ion Battery”, J. Phys. Chem. C, 115 (2011) 16220–16227.
123.C. Zhong§, J. Z. Wang†, Z. Chen, and H. K. Liu, “SnO(2)-Graphene Composite Synthesized via an Ultrafast and Environmentally Friendly Microwave Autoclave Method and Its Use as a Superior Anode for Lithium-Ion batteries” J. Phys. Chem. C, 115 (2011) 25115-25120.
124.L. Lu§, J. Z. Wang†, X. B. Zhu, X. W. Gao§, H. K. Liu “High capacity and high rate capability of nanostructured CuFeO2 anode materials for lithium-ion batteries”, J. Power Sources, 196 (2011) 7025-7029.
125.S. L. Chou§†, X. W. Gao§, J. Z. Wang†, David Wexler, Zhao-Xiang Wang, Li-Quan Chen, and Hua-Kun Liu, “Tin/polypyrrole composite anode using sodium carboxymethyl cellulose binder for lithium-ion batteries” Dalton Trans., 40 (2011) 1–7.
126.N. H. Idris§, M. M. Rahman§, Shu-Lei Chou§, J. Z. Wang†, D. Wexler, H. K. Liu, “Rapid synthesis of binary -NiS–-NiS by microwave autoclave for rechargeable lithium batteries”, Electrochim. Acta, 58 (2011) 456– 462.
127.R. J. Smith, P. J. King , M. Lotya, C. Wirtz, U. Khan, S. De, A. O’Neill, G. S. Duesberg, J. C. Grunlan, G.y Moriarty , J. Chen, J. Z. Wang, A. I. Minett, V. Nicolosi, and J. N. Coleman, “Large-Scale Exfoliation of Inorganic Layered Compounds”, in Aqueous Surfactant Solutions” Adv. Mater., 2011, 23, 3944–3948.
128.J. Z. Wang†, C. Zhong§, S. L. Chou§, H. K. Liu, “Flexible free-standing graphene silicon composite film for lithium-ion batteries”, Electrochem. Commun., 12 (2010) 1467–1470.
129. S. L. Chou§, J. Z. Wang†, H.K. Liu, M. Choucair, J. A. Stride, S.X. Dou, “Enhanced reversible lithium storage in nanosize silicon/graphene composite”, Electrochem. Commun., 12 (2010) 303-306.
130. S. L. Chou§, J. Z. Wang†, D. Wexler, K. Konstantinov, *C. Zhong, S. X. Dou, H. K. Liu, “High surface area α-Fe2O3/carbon nanocomposites for high performance lithium-ion batteries”, J. Mater. Chem., 20 (2010) 2092-2098.
131. C. Zhong§, J. Z. Wang†, S. L. Chou§, K. Konstantinov, M. M. Rahman, H. K. Liu, “Nanocrystalline NiO hollow spheres in conjunction with CMC for lithium-ion batteries”, J. Appl. Electrochem, 40 (2010)1415-1419.
132.S. L. Chou§†, Y. Zhao, J. Z. Wang†, Z. X. Chen, H. K. Liu, and S. X. Dou “Silicon/Single-Walled Carbon Nanotube Composite Paper as a Flexible Anode Material for Lithium Ion Batteries” J. Phys. Chem. C, 114 (2010) 15862-15867. (IF: 4.509)
133.J. Chen, J. Z. Wang, A. I. Minett, Y. Liu, C. Lynam, H. K. Liu, G.G. Wallace, “Carbon nanotube network modified carbon paper for Li-ion batteries”, Energy & Enviromental Science, 2 (2009) 393-396.
134. J. Z. Wang†, S.Y. Chew§, Z. W. Zhao, S. Ashraf, D. Wexler, J. Chen, S. H. Ng§, S. L. Chou§ and H. K. Liu, “Sulfur-Mesoporous Carbon Composites in Conjunction with a Novel Ionic Liquid Electrolyte for Lithium Rechargeable Batteries”, Carbon, 46 (2008) 229-235.
135. J. Z. Wang†, S. L. Chou§, S. Y. Chew§, J. Z. Sun, M. Forsyth, D. R. MacFarlane, H. K. Liu, “Nickel sulfide cathode in combination with an ionic liquid-based electrolyte for Rechargeable Lithium batteries” , Solid State Ionics, 179 (2008) 2379-2382. (IF: 2.38)
136. J. Z. Wang†, S. L. Chou§, J. Chen, S. Y. Chew§, G. X. Wang, K. Konstantinov, J. Wu, S. X. Dou, H. K. Liu, “Paper-like free-standing polypyrrole and polypyrrole–LiFePO4 composite films for flexible and bendable rechargeable battery”, Electrochem. Commun., 10 (2008) 1781–1784. (IF: 4.569)
137. S. L. Chou§, J. Z. Wang, J. Z. Sun, D. Wexler, M. Forsyth, H. K. Liu, D.R. MacFarlane, S. X. Dou, Chem. Mater. 2008 “High Capacity, Safety and Enhanced Cyclability of Lithium Metal Battery Using V2O5 Nanomaterial Cathode and Room Temperature Ionic Liquid Electrolyte” Chem. Mater., 20 (2008) 7044-7051.
138. J. Z. Wang†, S.Y. Chew§, D. Wexler, G.X. Wang, S.H. Ng§, S. Zhong and H.K. Liu, “Nanostructured nickel sulfide synthesized via a polyol route as a cathode material for the rechargeable lithium battery”, Electrochem. Commun., 9 (2007) 1877-1880.
139. J. Z. Wang†, S. H. Ng§, Sau Yen Chew§, D. Wexler, G. X. Wang, and H. K. Liu, “Characterization of Nanosize Molybdenum Trisulfide for Lithium Batteries and MoS3 Structure Confirmation via Electrochemistry” Electrochem. Solid-State Lett.,10 (2007) A204-A207.
140. Jun Chen, Yong Liu, Andrew I. Minett, Carol Lynam, Jiazhao Wang, and Gordon G. Wallace, “Flexible, aligned carbon nanotube/conducting polymer electrodes for a lithium-ion battery”, Chem. Mater., 19 (2007) 3595-3597.
141.J.Z. Wang, C.Y. Wang, C.O. Too and G.G. Wallace, “Highly-flexible fibre battery incorporating polypyrrole cathode and carbon nanotubes anode”, J. Power Sources, 161 (2006) 1458.
142. J. Z. Wang, J. Chen, K. Konstantinov, L. Zhao, S.H. Ng§, G.X. Wang, Z.P. Guo and H.K Liu, “Sulphur-polypyrrole composite positive electrode materials for rechargeable lithium batteries”, Electrochim. Acta, 51 (2006) 4634-4638.
143.J. Z. Wang, C.O. Too, D. Zhou and G.G. Wallace, “Novel electrode substrates for rechargeable lithium/polypyrrole batteries”, J. Power Sources, 140 (2005) 162-167.
144.J. Z. Wang†, H.K. Liu, S.X. Dou, S. Zhong, Y. Zhu and C. Fu, “Enhanced performance of VRLA batteries with a novel spirally-wound electrode design”, J. Power Sources, 113 (2003) 241-244.
145.J. Z. Wang†, S. Zhong, H.K. Liu and S.X. Dou, “Beneficial effects of red lead on non-cured plates for lead-acid batteries”, J. Power Sources, 113 (2003) 371-375.
146. J. Z. Wang†, S. Zhong, G.X. Wang, D.H. Bradhurst, M. Ionescu, H.K. Liu and S.X. Dou, “Electrochemical performance of nanocrystalline lead oxide in VRLA batteries”, J. Alloys Comp., 327 (2001) 141-145.
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