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个人简介

学习经历 1981年09月- 1986年07月 中国清华大学物理系 理学学士 1986年08月- 1989年06月 中国清华大学物理系 固体物理硕士 1993年10月- 1996年09月 日本东京大学工学院 材料科学博士 工作经历 1989年08月- 1993年09月 中国清华大学物理系 讲师 1996年09月- 2000年01月 日本电气基础研究所 研究员 2000年01月- 2002年07月 美国斯坦福大学 博士后研究员 2002年07月- 2008年08月 美国英特尔公司 资深研究员,碳纳米管战略研究项目领导人,半导体技术委员会存储器件战略研究分支主席 2008年08月- 2012年09月 美国伯克利国家实验室 终身研究员 2014年05月-2017年04月 中国清华大学物理系 双聘教授 2017年04月- 现在 中国清华大学物理系 长聘教授 奖励、荣誉和学术兼职 2012: 江苏省高层次创新创业人才 2008: 英特尔公司器件研究部门奖 2004/2005/2006:英特尔公司SRC指导项目奖 1995/1996:日本学术振兴会特别研究员奖学金 1995:日本金属学会暨国际先进材料与技术研讨会优秀展示奖 1991:清华大学一二九青年教师奖

研究领域

纳米材料的合成与表征 纳米器件的设计及微纳加工技术 锂电池、镁电池、超级电容器等电化学能量存储器件 原位表征技术 能源转化的化学物理机理

近期论文

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X. Li, Y. Wei*, Z. Wang, Y. Kong, Y. Su, G. Lu, Z. Mei, Y. Su, G. Zhang, J. Xiao, L. Liang, J. Li, Q. Li, J. Zhang, S. Fan, and Y. Zhang*, “One-dimensional semimetal contacts to two-dimensional semiconductors,” Nature Communications, 14, 1, (2023). Y. Luo, Z. Fang, S. Duan, H. Wu, H. Liu, Y. Zhao, K. Wang, Q. Li, S. Fan, Z. Zheng, W. Duan, Y. Zhang, and J. Wang*, “Direct Monitoring of Li2S2 Evolution and Its Influence on the Reversible Capacities of Lithium-Sulfur Batteries,” Angewandte Chemie-international Edition, (2023). L. Ji, X. Wang, Y. Jia, X. Qin, Y. Sui, H. Yan, Z. Niu, J. Liu*, and Y. Zhang, “Oxygen and nitrogen tailoring carbon fiber aerogel with platinum electrocatalysis interfaced lithium/sulfur (Li/S) batteries,” Chinese Chemical Letters, 34, 1, (2023). Y. Zhao, X. Zhang, J. Xiao, H. Fan, J. Zhang, H. Liu, Y. Liu, H. Yuan, S. Fan, and Y. Zhang*, “Effect of Mg Cation Diffusion Coefficient on Mg Dendrite Formation,” Acs Applied Materials & Interfaces, 14, 5, 6499-6506, (2022). G. Xu, Q. Wang, Y. Su, M. Liu, Q. Li, and Y. Zhang*, “Revealing Electrochemical Sodiation Mechanism of Orthogonal-Nb2O5 Nanosheets by In Situ Transmission Electron Microscopy,” Acta Physico-chimica Sinica, 38, 8, (2022). J. Xiao, X. Zhang, H. Fan, Y. Zhao, Y. Su, H. Liu, X. Li, Y. Su, H. Yuan, T. Pan, Q. Lin, L. Pan, and Y. Zhang*, “Stable Solid Electrolyte Interphase In Situ Formed on Magnesium-Metal Anode by using a Perfluorinated Alkoxide-Based All-Magnesium Salt Electrolyte,” Advanced Materials, 34, 30, (2022). J. Xiao, X. Zhang, H. Fan, Q. Lin, L. Pan, H. Liu, Y. Su, X. Li, Y. Su, S. Ren, Y. Lin, and Y. Zhang*, “Cosolvent-Assisted Formation of Charged Ion-Solvent Clusters and Solid Electrolyte Interphase for High-Performance Magnesium Metal Batteries,” Advanced Energy Materials, 12, 47, (2022). J. Wang*, H. Hu, S. Duan, Q. Xiao, J. Zhang, H. Liu, Q. Kang, L. Jia, J. Yang, W. Xu, H. Fei, S. Cheng, L. Li, M. Liu*, H. Lin, and Y. Zhang*, “Construction of Moisture-Stable Lithium Diffusion-Controlling Layer toward High Performance Dendrite-Free Lithium Anode,” Advanced Functional Materials, 32, 12, (2022). S. Tang, G. Lu, Y. Su, G. Wang, X. Li, G. Zhang, Y. Wei*, and Y. Zhang*, “Raman Mapping of Lithiation Process on Graphene,” Acta Physico-chimica Sinica, 38, 3, (2022). H. Liu, J. Zhang, Y. Liu, Y. Wei, S. Ren, L. Pan, Y. Su, J. Xiao, H. Fan, Y. Lin, Y. Su, and Y. Zhang*, “A flexible artificial solid-electrolyte interlayer supported by compactness-tailored carbon nanotube network for dendrite-free lithium metal anode,” Journal of Energy Chemistry, 69, 421-427, (2022). X. Li, Q. Liu, X. Wang, J. Liu, M. Cheng, J. Hu, T. Wei, W. Li*, Y. Ling, B. Chen, Z. Pan, W. Ma, B. Liu*, Z. Wu, J. Liu, and Y. Zhang*, “A facile in situ Mg surface chemistry strategy for conditioning-free Mg [AlCl4](2) electrolytes,” Electrochimica Acta, 414, (2022). Z. Fang, Z. Hong, Y. Luo, Y. Liu, H. Wu, H. Tian, F. Zhao, Y. Zhang, Q. Li, S. Fan, and J. Wang*, “Systematic study and effective improvement of voltammetry for accurate electrochemical window measurement of solid electrolytes,” Electrochimica Acta, 414, (2022). H. Fan, X. Zhang, Y. Zhao, J. Xiao, H. Yuan, G. Wang, Y. Lin, J. Zhang, L. Pan, T. Pan, Y. Liu, and Y. Zhang*, “Tailoring Mg2+ Solvation Structure in a Facile All-Inorganic [MgxLiyCl2x+y ·nTHF] Complex Electrolyte for High Rate and Long Cycle-Life Mg Battery,” Energy & Environmental Materials, (2022). J. Wang*, J. Zhang, S. Duan, L. Jia, Q. Xiao, H. Liu, H. Hu, S. Cheng, Z. Zhang, L. Li, W. Duan, Y. Zhang*, and H. Lin*, “Lithium Atom Surface Diffusion and Delocalized Deposition Propelled by Atomic Metal Catalyst toward Ultrahigh-Capacity Dendrite-Free Lithium Anode,” Nano Letters, (2022). J. Wang, H. Liu, H. Wu, Q. Li, Y. Zhang, S. Fan, and J. Wang*, “Self-standing carbon nanotube aerogels with amorphous carbon coating as stable host for lithium anodes,” Carbon, 177, 181-188, (2021). Y.-H. Tan, G.-X. Lu, J.-H. Zheng, F. Zhou, M. Chen, T. Ma, L.-L. Lu, Y.-H. Song, Y. Guan, J. Wang, Z. Liang*, W.-S. Xu, Y. Zhang*, X. Tao*, and H.-B. Yao*, “Lithium Fluoride in Electrolyte for Stable and Safe Lithium-Metal Batteries,” Advanced Materials, 33, 42, (2021). Y. Liu, H. Liu, Y. Lin, Y. Zhao, H. Yuan, Y. Su, J. Zhang, S. Ren, H. Fan, and Y. Zhang*, “Mechanistic Investigation of Polymer-Based All-Solid-State Lithium/Sulfur Battery,” Advanced Functional Materials, 31, 41, (2021). W. Li*, X. Li, H. Fan, J. Xiao, Q. Liu, M. Cheng, J. Hu, T. Wei, Z. Wu, Y. Ling, B. Liu, and Y. Zhang*, “Progress of Non-Nucleophilic Electrolytes for Magnesium/Sulfur Battery,” Acta Chimica Sinica, 79, 5, 628-641, (2021). Lu, GT. Wei, Y*. Li, XZ. Zhang, GQ. Wang, G. Liang, L. Li, QQ. Fan, SS. Zhang, YG*.“Reconfigurable Tunneling Transistors Heterostructured by an Individual Carbon Nanotube and MoS2”, Nano Letters, 21,16,6843-6850, (2021). Zhang, JF. Lin, QY. Wang, ZL. Liu, HW. Li, XZ. Zhang, YG*. “Identifying Water Oxidation Mechanisms at Pure and Titanium-Doped Hematite-Based Photoanodes with Spectroelectrochemistry”, Small Methods, 5,12, (2021). Ji, L. Jia, YF. Wang, X. Duan, LM. Li, WS*. Liu, JH*. Zhang, YG*, “Strong adsorption, catalysis and lithiophilic modulation of carbon nitride for lithium/sulfur battery,” Nanotechnology, 32, 19, (2021). Ma, WJ. Li, WF*. Li, M. Mao, QH. Pan, ZH. Hu, J. Li, X. Zhu, MF*. Zhang, YG*, “Unzipped Carbon Nanotube/Graphene Hybrid Fiber with Less "Dead Volume" for Ultrahigh Volumetric Energy Density Supercapacitors, ” Advanced Functional Materials, 31, 19, (2021). L. Jia, J. Wang, S. Ren, G. Ren, X. Jin, L. Kao, X. Feng, F. Yang, Q. Wang, L. Pan, Q. Li, Y.-s. Liu, Y. Wu, G. Liu, J. Feng, S. Fan, Y. Ye*, J. Guo*, and Y. Zhang*, “Unraveling Shuttle Effect and Suppression Strategy in Lithium/Sulfur Cells by In Situ/Operando X-ray Absorption Spectroscopic Characterization,” Energy & Environmental Materials, (2020). W. Ma, W. Li, M. Li, Q. Mao, Z. Pan, M. Zhu*, and Y. Zhang*, “Scalable microgel spinning of a three-dimensional porous graphene fiber for high-performance flexible supercapacitors,” Journal of Materials Chemistry A, 8, 47, 25355-25362, Dec 21, (2020). J. Wang, J. Yang, Q. Xiao, J. Zhang, T. Li, L. Jia, Z. Wang, S. Cheng, L. Li, M. Liu, H. Liu, H. Lin*, and Y. Zhang*, “In Situ Self-Assembly of Ordered Organic/Inorganic Dual-Layered Interphase for Achieving Long-Life Dendrite-Free Li Metal Anodes in LiFSI-Based Electrolyte,” Advanced Functional Materials, (2020). J. Zhang, Y. Su, and Y. Zhang*, “Recent advances in research on anodes for safe and efficient lithium-metal batteries,” Nanoscale, 12, 29, 15528-15559, (2020). J. Wang, L. Jia, H. Lin, and Y. Zhang*, “Single-Atomic Catalysts Embedded on Nanocarbon Supports for High Energy Density Lithium-Sulfur Batteries,” Chemsuschem, 13, 13, 3404-3411, (2020). H. Fan, Z. Zheng, L. Zhao, W. Li, J. Wang, M. Dai, Y. Zhao, J. Xiao, G. Wang, X. Ding, H. Xiao, J. Li, Y. Wu*, and Y. Zhang*, “Extending Cycle Life of Mg/S Battery by Activation of Mg Anode/Electrolyte Interface through an LiCl-Assisted MgCl2 Solubilization Mechanism,” Advanced Functional Materials, 30, 9, (2020). H. Fan, Y. Zhao, J. Xiao, J. Zhang, M. Wang, and Y. Zhang*, “A non-nucleophilic gel polymer magnesium electrolyte compatible with sulfur cathode,” Nano Research, 13, 10, 2749-2754, (2020). M. Dai, J. Wang, L. Li, Q. Wang, M. Liu*, and Y. Zhang*, “High-performance Oxygen Evolution Catalyst Enabled by Interfacial Effect between CeO2 and FeNi Metal-organic Framework,” Acta Chimica Sinica, 78, 4, 355-362, (2020). L. Ji, X. Wang, Y. Jia, Q. Hu, L. Duan, Z. Geng, Z. Niu, W. Li*, J. Liu*, Y. Zhang*, and S. Feng, “Flexible Electrocatalytic Nanofiber Membrane Reactor for Lithium/Sulfur Conversion Chemistry,” Advanced Functional Materials, (2020). L. Li, M. Wang, J. Wang, F. Ye, S. Wang, Y. Xu, J. Liu, G. Xu, Y. Zhang, Y. Zhang, C. Yan, N. V. Medhekar, M. Liu*, and Y. Zhang, “Asymmetric gel polymer electrolyte with high lithium ion conductivity for dendrite-free lithium metal batteries,” Journal of Materials Chemistry A, 8, 16, 8033-8040, (2020). J. Wang, L. Jia, S. Duan, H. Liu, Q. Xiao, T. Li, H. Fan, K. Feng, J. Yang, Q. Wang, M. Liu, J. Zhong, W. Duan, H. Lin*, and Y. Zhang*, “Single atomic cobalt catalyst significantly accelerates lithium ion diffusion in high mass loading Li2S cathode,” Energy Storage Materials, 28, 375-382, (2020). J. Wang, L. Jia, H. Lin, and Y. Zhang*, “Single-Atomic Catalysts Embedded on Nanocarbon Supports for High Energy Density Lithium-Sulfur Batteries,” Chemsuschem, (2020). J. Wang, L. Jia, H. Liu, C. Wang, J. Zhong, Q. Xiao, J. Yang, S. Duan, K. Feng, N. Liu, W. Duan, H. Lin, and Y. Zhang*, “Multi-ion Modulated Single-Step Synthesis of a Nanocarbon Embedded with a Defect-Rich Nanoparticle Catalyst for a High Loading Sulfur Cathode,” Acs Applied Materials & Interfaces, 12, 11, 12727-12735, (2020). Q. Xu, X. Yang, M. Rao, D. Lin, K. Yan, R. Du, J. Xu, Y. Zhang, D. Ye, S. Yang, G. Zhou, Y. Lu*, and Y. Qiu*, “High energy density lithium metal batteries enabled by a porous graphene/MgF2 framework,” Energy Storage Materials, 26, 73-82, (2020). H. Yuan, G. Wang, Y. Zhao, Y. Liu, Y. Wu*, and Y. Zhang*, “A stretchable, asymmetric, coaxial fiber-shaped supercapacitor for wearable electronics,” Nano Research, 13, 6, 1686-1692, (2020). Y. Xu, S. Zhao, G. Zhou, W. Chen, F. Zhou, Z. Rong, Y. Wu, J. Li, J. Guo*, and Y. Zhang*, “Solubility-Dependent Protective Effects of Binary Alloys for Lithium Anode,” ACS Applied Energy Materials, (2020). M. Dai, H. Fan, G. Xu, M. Wang, S. Zhang, L. Lu*, and Y. Zhang*, “Boosting electrocatalytic oxygen evolution using ultrathin carbon protected iron–cobalt carbonate hydroxide nanoneedle arrays,” Journal of Power Sources, 450, (2020). N. Liu, Z. Pan, X. Ding, J. Yang, G. Xu, L. Li, Q. Wang, M. Liu*, and Y. Zhang*, “In-situ growth of vertically aligned nickel cobalt sulfide nanowires on carbon nanotube fibers for high capacitance all-solid-state asymmetric fiber-supercapacitors,” Journal of Energy Chemistry, 41, 209-215, (2020). H. Li, S. Liu, C. Liu, J. Zhang, Y. Xu, R. Yu, Y. Wu*, Y. Zhang*, and S. Fan, “Antiferromagnetic topological insulator MnBi2Te4: synthesis and magnetic properties,” Physical Chemistry Chemical Physics, 22, 2, 556-563, (2020). D. Jiang, Y. Zhang, and X. Li*, “Synergistic effects of CuO and Au nanodomains on Cu2O cubes for improving photocatalytic activity and stability,” Chinese Journal of Catalysis, 40, 1, 105-113, (2019). H. Fan, Z. Zheng, L. Zhao, W. Li, J. Wang, M. Dai, Y. Zhao, J. Xiao, G. Wang, X. Ding, H. Xiao, J. Li, Y. Wu*, and Y. Zhang*, “Extending Cycle Life of Mg/S Battery by Activation of Mg Anode/Electrolyte Interface through an LiCl-Assisted MgCl2 Solubilization Mechanism”, Advanced Functional Materials, 1909370, (2019). S. Zhang, Y. Zhang, W. Li, Y. Wen, M. Liu, L. Lu*, J. Liu*, Y. Chen, W. Song, and Y. Zhang*, “Graphene edge-enhanced anchoring of the well-exposed cobalt clusters via strong chemical bonding for accelerating the oxygen reduction reaction,” Sustainable Energy & Fuels, 3, 10, 2859-2866, (2019). Z. Pan, J. Yang, W. Zang, Z. Kou, C. Wang, X. Ding, C. Guan, T. Xiong, H. Chen, Q. Zhang, Y. Zhong, M. Liu, L. Xing, Y. Qiu, W. Li, C. Yan, Y. Zhang*, and J. Wang*, “All-solid-state sponge-like squeezable zinc-air battery,” Energy Storage Materials, 23, 375-382, (2019). X. Wang, Z. Pan, J. Yang, Z. Lyu, Y. Zhong, G. Zhou, Y. Qiu, Y. Zhang, J. Wang*, and W. Li*, “Stretchable fiber-shaped lithium metal anode,” Energy Storage Materials, 22, 179-184, (2019). J. Wang, J. Yang, Q. Xiao, L. Jia, H. Lin*, and Y. Zhang*,“Hierarchical Sulfur-Doped Graphene Foam Embedded with Sn Nanoparticles for Superior Lithium Storage in LiFSI-Based Electrolyte, ” ACS Applied Materials & Interfaces ,11,30500-30507, (2019). Y. Ye, M. Song, Y. Xu, K. Nie, Y. Liu, J. Feng, X. Sun, E. Cairns, Y. Zhang*, and J. Guo*, “Lithium nitrate: A double-edged sword in the rechargeable lithium-sulfur cell,” Energy Storage Materials 16, 498-504 (2019). J. Yang, Z. Pan, Q. Yu, Q. Zhang, X. Ding, X. Shi, Y. Qiu, K. Zhang*, J. Wang, and Y. Zhang*, “Free-Standing Black Phosphorus Thin Films for Flexible Quasi-Solid-State Micro-Supercapacitors with High Volumetric Power and Energy Density,” ACS Applied Materials & Interfaces 11, 5938-5946 (2019). Y. Xu, G. Zhou, S. Zhao, W. Li, F. Shi, J. Li, J. Feng, Y. Zhao, Y. Wu, J. Guo*, Y. Cui*, and Y. Zhang*, “Improving a Mg/S Battery with YCl3 Additive and Magnesium Polysulfide,” Advanced Science 6, 6 (2019). Y. Xu, Y. Ye, S. Zhao, J. Feng, J. Li, H. Chen, A. Yang, F. Shi, L. Jia, Y. Wu, X. Yu, P. Glans-Suzuki, Y. Cui, J. Guo*, and Y. Zhang*, “In Situ X-ray Absorption Spectroscopic Investigation of the Capacity Degradation Mechanism in Mg/S Batteries,” Nano Letters 19, 2928-2934 (2019). X. Wang, Z. Pan, J. Zhuang, G. Li, X. Ding, M. Liu, Q. Zhang, Y. Liao, Y. Zhang*, and W. Li*, “Simultaneously Regulating Lithium Ion Flux and Surface Activity for Dendrite-Free Lithium Metal Anodes,” ACS Applied Materials & Interfaces 11, 5159-5167 (2019). X. Wang, Z. Pan, Y. Wu, X. Ding, X. Hong, G. Xu, M. Liu, Y. Zhang*, and W. Li*, “Infiltrating lithium into carbon cloth decorated with zinc oxide arrays for dendrite-free lithium metal anode,” Nano Research 12, 525-529 (2019). J. Wang, L. Jia, J. Zhong, Q. Xiao, C. Wang, K. Zang, H. Lin, H. Zheng, J. Luo, J. Yang, H. Fan, W. Duan, Y. Wu, H. Lin, and Y. Zhang*, “Single-atom catalyst boosts electrochemical conversion reactions in batteries,” Energy Storage Materials 18, 246-252 (2019). Z. Pan, J. Yang, Q. Zhang, M. Liu, Y. Hu, Z. Kou, N. Liu, X. Yang, X. Ding, H. Chen, J. Li, K. Zhang, Y. Qiu, Q. Li, O. Wang*, and Y. Zhang*, “All-Solid-State Fiber Supercapacitors with Ultrahigh Volumetric Energy Density and Outstanding Flexibility,” Advanced Energy Materials 9, 10 (2019). L. Jia, J. Wang, Z. Chen, Y. Su, W. Zhao, D. Wang, Y. Wei, K. Jiang, J. Wang, Y. Wu, J. Li, W. Duan, S. Fan, and Y. Zhang*, “High areal capacity flexible sulfur cathode based on multi-functionalized super-aligned carbon nanotubes,” Nano Research 12, 1105-1113 (2019). X. Ding, Z. Pan, N. Liu, L. Li, X. Wang, G. Xu, J. Yang, J. Yang, N. Yu, M. Liu, W. Li*, and Y. Zhang*, “Freestanding Carbon Nanotube Film for Flexible Straplike Lithium/Sulfur Batteries,” Chemistry-a European Journal 25, 3775-3780 (2019). M. Chen, Z. Pan, X. Jin, Z. Chen, Y. Zhong, X. Wang, Y. Qiu, M. Xu, W. Li*, and Y. Zhang*, “A highly integrated All-manganese battery with oxide nanoparticles supported on the cathode and anode by super-aligned carbon nanotubes,” Journal of Materials Chemistry A, 7, 4494-4504 (2019). Q. Wang, Z. Jia, L. Li, J. Wang, G. Xu, X. Ding, N. Liu, M. Liu*, and Y. Zhang*, “Coupling Niobia Nanorods with a Multicomponent Carbon Network for High Power Lithium-Ion Batteries,” Acs Applied Materials & Interfaces, 11, 47, 44196-44203 (2019). A. Subramanian, Z. Pan, Z. Zhang, I. Ahmad, J. Chen, M. Liu, S. Cheng, Y. X{Ye, 2018 #3}u, J. Wu, W. Lei*, Q. Khan*, and Y. Zhang*, “Interfacial Energy-Level Alignment for High-Performance All Inorganic Perovskite CsPbBr3 Quantum Dot-Based Inverted Light Emitting Diodes,” ACS Applied Materials & Interfaces 10, 13236-13243 (2018). X. Wang, Z. Pan, Y. Wu, G. Xu, X. Zheng, Y. Qiu, M. Liu, Y. Zhang*, and W. Li*, “Reducing lithium deposition overpotential with silver nanocrystals anchored on graphene aerogel,” Nanoscale 10, 6562-16567 (2018). Y. Xu, W. Li, G. Zhou, Z. Pan, and Y. Zhang*, “A non-nucleophilic mono-Mg2+ electrolyte for rechargeable Mg/S battery,” Energy Storage Materials 14, 253-257 (2018). F. Ye, M. Liu, X. Yan, J. Li, Z. Pan, H. Li, and Y. Zhang*, “In Situ Electrochemically Derived Amorphous-Li2S for High Performance Li2S/Graphite Full Cell,” Small 14, 7 (2018). Y. Zhang, W. Li, L. Lu*, W. Song, C. Wang, L. Zhou, J. Liu*, Y. Chen, H. Jin, and Y. Zhang*, “Tuning active sites on cobalt/nitrogen doped graphene for electrocatalytic hydrogen and oxygen evolution,” Electrochimica Acta 265, 497-506 (2018). K. Zhu, Y. Luo, F. Zhao, J. Hou, X. Wang, H. Ma, H. Wu, Y. Zhang, K. Jiang, S. Fan, J. Wang*, and K. Liu*, “Free-Standing, Binder-Free Titania/Super-Aligned Carbon Nanotube Anodes for Flexible and Fast-Charging Li-Ion Batteries,” ACS Sustainable Chemistry & Engineering 6, 3426-+ (2018). Z. Pan, J. Zhong, Q. Zhang, J. Yang, Y. Qiu, X. Ding, K. Nie, H. Yuan, K. Feng, X. Wang, G. Xu, W. Li, Y. Yao, Q. Li, M. Liu*, and Y. Zhang*, “Ultrafast All-Solid-State Coaxial Asymmetric Fiber Supercapacitors with a High Volumetric Energy Density”, Advanced Energy Materials 8, 1702946 (2018). C. Ye, W. Tu, L. Yin, Q. Zheng, C. Wang, Y. Zhong, Y. Zhang, Q. Huang, K. Xu*, and W. Li*, “Converting detrimental HF in electrolytes into a highly fluorinated interphase on cathodes,” Journal of Materials Chemistry A, 6, 36, 17642-17652 (2018). Z. Pan, H. Zhi, Y. Qiu, J. Yang, L. Xing, Q. Zhang, X. Ding, X. Wang, G. Xu, H. Yuan, M. Chen, W. Li, Y. Yao, N. Motta, M. Liu*, Y. Zhang*, “Achieving commercial-level mass loading in ternary-doped holey graphene hydrogel electrodes for ultrahigh energy density supercapacitors”, Nano Energy 46, 266–276 (2018). A. Subramanian, Z. Pan, H. Li, L. Zhou, W. Li, Y. Qiu, Y. Xu, Y. Hou, C. Muzi, and Y. Zhang*, “Synergistic promotion of photoelectrochemical water splitting efficiency of TiO2 nanorods using metal-semiconducting nanoparticles,” Applied Surface Science, 420, 631-637 (2017). Q. Zhang, W. Xu, J. Sun, Z. Pan, J. Zhao, X. Wang, J. Zhang, P. Man, J. Guo, Z. Zhou, B. He, Z. Zhang, Q. Li, Y. Zhang, L. Xu*, and Y. Yao*, “Constructing Ultrahigh-Capacity Zinc-Nickel-Cobalt Oxide@Ni(OH)(2) Core-Shell Nanowire Arrays, for High-Performance Coaxial Fiber-Shaped Asymmetric Supercapacitors,” Nano Letters, 17, 12, 7552-7560 (2017). J. Wang, S. Cheng, W. Li, L. Jia, Q. Xiao, Y. Hou, Z. Zheng, H. Li, S. Zhang, L. Zhou, M. Liu, H. Lin*, and Y. Zhang*, “Robust electrical ‘highway’ network for high mass loading sulfur cathode”, Nano Energy 40, 390–398 (2017). H. Ryu, J. Hwang, D. Wang, A. S. Disa, J. Denlinger, Y. Zhang, S.-K. Mo*, C. Hwang*, and A. Lanzara, “Temperature-Dependent Electron–Electron Interaction in Graphene on SrTiO3”, Nano Letters 17, 5914-5918 (2017). Y. Xu, J. Yuan, K. Zhang,* Y. Hou, Q. Sun, Y. Yao, S. Li, Q. Bao, H. Zhang,* and Y. Zhang*, “Field-Induced n-Doping of Black Phosphorus for CMOS Compatible 2D Logic Electronics with High Electron Mobility”, Advanced Functional Materials 27, 1702211 (2017). Z. Pan, M. Liu, J. Yang, Y. Qiu, W. Li, Y. Xu, X. Zhang, and Y. Zhang*, “High Electroactive Material Loading on a Carbon Nanotube@3D Graphene Aerogel for High-Performance Flexible All-Solid-State Asymmetric Supercapacitors”, Advanced Functional Materials 27, 1701122 (2017). K. Bourzac, and Y. Zhang, “A Conversation with Yuegang Zhang,” Acs Central Science, 3, 11, 1131-1132, (2017). G. Rong, X. Zhang, W. Zhao, Y. Qiu, M. Liu, F. Ye, Y. Xu, J. Chen, Y. Hou, W. Li, W. Duan, and Y. Zhang*, “Liquid-Phase Electrochemical Scanning Electron Microscopy for In Situ Investigation of Lithium Dendrite Growth and Dissolution”, Advanced Materials, 1606187 (2017). M. Chen, Y. Zhang, L. Xing, Y. Liao, Y. Qiu,* S. Yang,* and W. Li*, “Morphology-Conserved Transformations of Metal-Based Precursors to Hierarchically Porous Micro-/Nanostructures for Electrochemical Energy Conversion and Storage”, Advanced Materials, 1607015 (2017). Q. Zhang, X. Wang, Z. Pan, J. Sun, J. Zhao, J. Zhang, C. Zhang, L. Tang, J. Luo, B. Song, Z. Zhang*, W. Lu, Q. Li, Y. Zhang, and Y. Yao*, “Wrapping Aligned Carbon Nanotube Composite Sheets around Vanadium Nitride Nanowire Arrays for Asymmetric Coaxial Fiber-Shaped Supercapacitors with Ultrahigh Energy Density”, Nano Letters 17, 2719-2726 (2017). Q. Zhang, J. Sun, Z. Pan, J. Zhang, J. Zhao, X. Wang, C. Zhang, Y. Yao*, W. Lu, Q. Li, Y. Zhang, Z. Zhang*, “Stretchable fiber-shaped asymmetric supercapacitors with ultrahigh energy density”, Nano Energy 39, 219–228 (2017). Z. Jia, M. Liu*, X. Zhao, X. Wang, Z. Pan, Y. Zhang*, “Lithium Ion Hybrid Supercapacitor Based on Three-Dimensional Flower-Like Nb2O5 and Activated Carbon Electrode Materials”, Acta Physico-Chimica Sinica 33, 2510-2516 (2017). D. Jiang*, Y. Zhang, and X. Li*, “Folded-up thin carbon nanosheets grown on Cu2O cubes for improving photocatalytic activity”, Nanoscale 9, 12348-12352 (2017). D. Jiang, J. Xue, Q. Wu, W. Zhou, Y. Zhang, and X. Li*, “Photocatalytic performance enhancement of CuO/Cu2O heterostructures for photodegradation of organic dyes: Effects of CuO morphology”, Applied Catalysis B: Environmental 211, 199-204 (2017). A. Subramanian, Z. Pan, H. Li, L. Zhou, W. Li, Y. Qiu, Y. Xu, Y. Hou, M. Chen, Y. Zhang*, “Synergistic promotion of photoelectrochemical water splitting efficiency of TiO2 nanorods using metal-semiconducting nanoparticles”, Applied Surface Science 420, 631-637 (2017). A. Subramanian, Z. Pan, G. Rong, H. Li, L. Zhou, W. Li, Y. Qiu, Y. Xu, Y. Hou, Z. Zheng, Y. 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Zhang, “Production of single-wall carbon nanotubes at high pressure”, Journal of Physical Chemistry B 103, 8698-8701 (1999). Z. Shi, Y. Lian, F. Liao, X. Zhou, Z. Gu, Y. Zhang, S. Iijima, “Purification of single-wall carbon nanotubes”, Solid State Communications 112, 35-37 (1999). O. Lourie, H. D. Wagner, Y. Zhang, and S. Iijima, “Dependence of elastic properties on morphology in single-wall carbon nanotubes”, Advanced Materials 11, 931-934 (1999). Y. Zhang* and S. Iijima, “Elastic response of carbon nanotube bundles to visible light”, Physical Review Letters 82, 3472-3475 (1999). Y. Zhang*, S. Iijima, Z. Shi, and Z. Gu, “Defects in arc-discharge-produced single-walled carbon nanotubes”, Philosophical Magazine Letters 79, 473-479 (1999). Z. Shi, Y. Lian, X. Zhou, Z. Gu, L. Zhou, K. T. Yue, S. Zhang, Y. Zhang, S. Iijima, “Mass-production of single-wall carbon nanotubes by arc discharge method”, Carbon 37, 1449-1453 (1999). Y. Zhang*, T. Ichihashi, E. Landree, F. Nihey, and S. Iijima, “Heterostructures of single-walled carbon nanotubes and carbide nanorods”,Science 285, 1719-1722 (1999). >Y. Zhang*, K. Suenaga, C. Colliex, and S. Iijima, “Coaxial nanocable: Silicon carbide and silicon oxide sheathed with boron nitride and carbon”, Science 281, 973-975 (1998). Y. Zhang*, H. Gu, and S. Iijima, “Single-wall carbon nanotubes synthesized by laser ablation in a nitrogen atmosphere”, Applied Physics Letters 73, 3827-3829 (1998). Y. Zhang and S. Iijima, “Microscopic structure of as-grown single-wall carbon nanotubes by laser ablation”, Philosophical Magazine Letters 78, 139-144 (1998). Y. Zhang*, H. Gu, K. Suenaga, and S. Iijima, “Heterogeneous growth of B-C-N nanotubes by laser ablation”, Chemical Physics Letters 279, 264-269 (1997). Y. Zhang, H. Ichinose, M. Nakanose, K. Ito, and Y. Ishida, “Structure modeling of S 3 and S 9 coincident boundaries in CVD diamond thin films”, Journal of Electron Microscopy 48, 245-251 (1999). K. Kohyama, H. Ichinose, Y. Zhang, Y. Ishida and M. Nakanose, “Tight-binding calculation of the {211} S =3 boundary in diamond”, Interface Science 4, 157-167 (1997). H. Ichinose, M. Nakanose, Y. Zhang, “Atomic and electron structure of diamond grain boundaries in a polycrystalline film”, Materials Research Society symposium proceedings: Polycrystalline Thin Films - Structure, Texture, Properties and Applications III, 472, 93-98 (1997). H. Ichinose, Y. Zhang, Y. Ishida, K. Ito, and M. Nakanose, “Application of spatially resolved EELS on atomic structure determination of diamond grain boundary”, Materials Research Society Symposium Proceedings: Atomic Resolution Microscopy of Surfaces and Interfaces, 466 , 273-278 (1997). Y. Zhang, H. Ichinose, M. Nakanose, K. Ito, and Y. Ishida, “Transmission electron microscopic observation of grain boundaries in CVD diamond thin films”, Journal of Electron Microscopy 45, 436-441 (1996). Y. Zhang, H. Ichinose, Y. Ishida, K. Ito, and M. Nakanose, “Atomic and electronic structures of grain boundary in chemical vapor deposited diamond thin film”, Materials Research Society Symposium Proceedings: Diamond for Electronic Applications, 416 , 355-360 (1996). Y. Zhang, H. Ichinose, K. Ito, Y. Ishida, and M. Nakanose, “Grain boundary structure and growth sequence of diamond thin film”, Materials Science Forum 204-206, 207-214 (1996). H. Ichinose, Y. Zhang, Y. Ishida, and M. Nakanose, “Morphology, atomic structure and electronic structure of artificial diamond grain boundary”, JEOL News Vol. 32E, No. 1, p. 16, 1996 Y. Zhang, H. Ichinose, Y. Ishida, and M. Nakanose, “HRTEM of grain boundaries in diamond thin film”, Proceedings of the 2nd NIRIM International Symposium on Advanced Materials (ISAM’95), 271-274 (1995). Y. Ishida, Y. Zhang, T. Katoh, H. Ichinose, “High resolution transmission electron microscopy of a segregated aluminum grain boundary and of diamond grain boundaries”, Annales de Physique C3 20, 83-89 (1995). Y. Zhang, S. Fan, C. Shi, Z. Niu, and B. Gu, “In-situ fabrication of YBCO/YSZ/Si thin films by laser ablation”, Physica C 185-189, 1997-1998 (1991). Y. Zhang, C. Shi, S. Fan, C. Cui, S. Li, J. Li, and M. Liu, “Preparation and critical current measurements of laser ablated YBCO superconducting thin films”, Chinese Physics Letters 8, 416-419 (1991). Y. Zhang, C. Shi, S. Fan, “In-situ fabrication of superconducting YBCO thin films by PLD method”, Cryogenics and Superconductivity (In Chinese), Vol.19, No.1, p. 45-47, 1991. 专著章节 Y. Zhang*, “Composite Nanowires”, in Nanowires and Nanobelts, ed. Zhong Lin Wang, Kluwer Academic Publishers, Boston, 2003, Vol. 2,pp. 257-268. Y. Zhang*, W. Han, G. Gu, “Nanocables and Nanojunctions“, in Encyclopedia of Nanoscience and Nanotechnology, ed. H. S. Nalwa, American Scientific Publishers, 2004, Vol. 6, pp. 61-76. Y. Zhang*, “Carbon nanotube based nonvolatile memory devices”, in Nanotubes and Nanowires, ed. P. J. Burke, World Scientific Publishing Co., Singapore, 2007, pp.77-93. N. Teyabi and Y. Zhang, “Ultrahigh density probe-based storage using ferroelectric thin films”, in Ferroelectrics – Applications, ed. M. Lallart, InTech, Rijeka, Croatia, 2011, pp. 157-178. Y. Zhang and X. Yang, “Lithium/Sulfur Batteries based on Carbon Nanomaterials”, in Carbon Nanomaterials for Advanced Energy Systems: Advances in Materials Synthesis and Device Applications, ed. W. Lu, J.-B. Naek, and L. Dai, John Wiley & Sons, Inc., Hoboken, New Jersey, 2015, pp. 365-384.

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