清华大学材料学院

                                       School of Materials Science and Engineering

伍晖

博士,副教授
办公地址:清华大学逸夫技术科学楼2320房间
电子邮件:huiwu@tsinghua.edu.cn
办公电话:010-62792396

教育背景

2000/09-2004/07 清华大学化学工程系高分子专业,工学学士
2004/09-2009/07 清华大学材料科学与工程系,工学博士,导师:潘伟教授

工作履历

2009/07-2013/04 美国斯坦福大学材料系,博士后,导师:崔屹教授
2013/05至今 清华大学材料学院,副教授

研究领域

研究领域包括能源存储材料,柔性功能材料,低维纳米材料的制备和应用,材料缺陷化学与催化。

研究概况

至2016年12月,以第一作者或通讯作者身份在Nature Chemistry, Nature Nanotechnology, Nature Communications 等学术期刊发表论文80余篇,发表论文被引用超过9000次, H因子39。所发表论文有13篇被计入ISI高引用论文(ISI highly cited papers)。
目前承担的项目包括科技部青年973计划 “柔性储能材料中的关键科学问题”,基金委优秀青年基金项目,基金委中国-瑞士国际合作项目。

奖励与荣誉

麻省理工科技评论(MIT Technology Review)评选的35位35岁以下青年创新人物(35 Innovators Under 35, or TR35)(2014年)
中组部第五批“青年千人计划” (2013年)
清华大学“基础研究青年骨干人才计划” (2013年)
北京市科技进步三等奖(排名第2)(2013年)
中国硅酸盐学会优秀青年科学家提名奖 (2013年)
全国百篇优秀博士学位论文 (2010年)
清华大学学术新秀 (2009年)

学术成果

发表论文
2016年
[1] Zhao, CS; Zhang, HT; Si, WJ; Wu, H. Mass production of two-dimensional oxides by rapid heating of hydrous chlorides. Nature Communications, 2016, 7, 12543.
[2] Lang, JL; Ding, B; Zhu, T; Su, HX; Luo, H; Qi, LQ; Liu, K; Wang, K; Hussain, N; Zhao, CS; Li, XY; Gao, HJ; Wu, H. Cycling of a Lithium-Ion Battery with a Silicon Anode Drives Large Mechanical Actuation. Advanced Materials, 2016, DOI:10.1002/adma.201603061.
[3] Liu, HW; Tang, H; Fang, MH; Si, WJ; Zhang, QH; Huang, ZH; Gu, L; Pan, W; Yao, J; Nan, CW; Wu, H. 2D Metals by Repeated Size Reduction. Advanced Materials, 2016, 28, 8170-8176.
[4] Huang, Y; Bai, XP; Zhou, M; Liao, SY; Yu, ZF; Wang, YP; Wu, H. Large-Scale Spinning of Silver Nanofibers as Flexible and Reliable Conductors. Nano Letters, 2016, 16, 5846-5851.
[5] Zhang, QY; Luo, X; Wang, LN; Zhang, LF; Khalid, B; Gong, JH; Wu, H. Lithium-Ion Battery Cycling for Magnetism Control. Nano Letters, 2016, 16, 583-587.
[6] Zhao, CS; Luo, X; Chen, CM; Wu, H. Sandwich electrode designed for high performance lithium-ion battery. Nanoscale, 2016, 8, 9511-9516.
[7] Huang, Y; Liao, SY; Ren, J; Khalid, B; Peng, HL; Wu, H. A transparent, conducting tape for flexible electronics. Nano Research, 2016, 9, 917-924.
[8] Ou, G; Li, ZW; Li, DK; Cheng, L; Liu, Z; Wu, H. Photothermal therapy by using titanium oxide nanoparticles. Nano Research, 2016, 9, 1236-1243.
[9] Wei, HH; Ma, XG; Gu, L; Li, JQ; Si, WJ: Ou, G; Yu, W; Zhao, CS; Li, JY; Song, MJ; Peng, ZJ; Wu, H. Aerodynamic levitated laser annealing method to defective titanium dioxide with enhanced photocatalytic performance. Nano Research, 2016, DOI: 10.1007/s12274-016-1253-0.
[10] Wang, XQ; Ou, G; Wang, N; Wu, H. Graphene-based Recyclable Photo-Absorbers for High-Efficiency Seawater Desalination. ACS Applied Materials & Interfaces, 2016, 8, 9194-9199.
[11] Wang, HL; Wang, N; Liu, T; Zhao, CS; Luo, X; Zhang, LF; Chang, YL; Wu, H. A heatproof separator for lithium-ion battery based on nylon66 nanofibers. Ionics, 2016, 22, 731-734.
[12] Yu W; Ou, G; Qi, LH; Wu, H. Textured LiFePO4 Bulk with Enhanced Electrical Conductivity. Journal of American Ceramic Society, 2016, 9, 3214-3216.
[13] Li, SW; Zhao, CS; Li, B; Wu, H. Performance Enhancement of Nanostructure Silicon Anode for Lithium Ion Battery. Current Nanoscience, 2016, 12, 169-174.
2015年
[14] Ou, G; Li, DK; Zhang, QH; Xu, B; Gu, L; Nan, CW; Wu, H. Arc-Melting to Narrow the Bandgap of Oxide Semiconductors. Advanced Materials, 2015, 27, 2589-2594.
[15] Saito, Y; Luo, X; Zhao, CS; Pan, W; Chen, CM; Gong, JH; Matsumoto, H; Yao, J; Wu, H. Filling the Gaps between Graphene Oxide: A General Strategy toward Nanolayered Oxides. Advance Functional Materials, 2015, 25, 5683-5690.
[16] Huang, SH; Zhao, CS; Pan, W; Cui, Y; Wu, H. Direct Writing of Half-Meter Long CNT Based Fiber for Flexible Electronics. Nano Letters, 2015, 15, 1609-1614.
[17] Huang, S; Guo, CF; Zhang, X; Pan, W; Luo, X; Zhao, CS; Gong, JH; Li, XY; Ren, ZF; Wu, H. Buckled Tin Oxide Nanobelt Webs as Highly Stretchable and Transparent Photosensors. Small, 2015, 11, 5712-5718.
[18] Luo, X; Zhang, HJ; Pan, W; Gong, JH; Khalid, B; Zhong, ML; Wu, H. SiOx Nanodandelion by Laser Ablation for Anode of Lithium-Ion Battery. Small, 2015, 11, 6009-6012.
[19] Zhao, CS; Gao, HP; Chen, CM; Wu, H. Reduction of graphene oxide in Li-ion batteries. Journal of Materials Chemistry A, 2015, 3, 18360-18364.
[20] Zhao, CS; Li, SW; Luo, X; Li, B; Pan, W; Wu, H. Integration of Si in a metal foam current collector for stable electrochemical cycling in Li-ion batteries. Journal of Materials Chemistry A, 2015, 3, 18360-18364.
[21] Yu, W; Ou, G; Si, WJ; Qi, LH; Wu, H. Defective SrTiO3 synthesized by arc-melting. Chemical Communication, 2015, 51, 15685-15688.
[22] Chang, YL; Wang, C; Liang, TX; Zhao, CS; Luo, X; Guo, T; Gong, JH; Wu, H. Sol-gel synthesis of mesoporous spherical zirconia. RSC Advances, 2015, 5, 104629-104634.
[23] Luo, X; Pan, W; Liu, HG; Gong, JH; Wu, H. Glass fiber fabric mat as the separator for lithium-ion battery with high safety performance. Ionics, 2015, 21, 3135-3139.
2015年以前
[24] Huang S, Wu H,* Ruan Z, Yu Z, and Pan W.*, A Flexible and Transparent Ceramic Nanobelt Network for Soft Electronics, NPG Asia Materials, 6 (2), e86 (2014)
[25] Wang C,*Wu H,* Bao Z, Cui Y, A Sealf-healing Electrode for L-ion Battery, Nature Chemistry, 5, 12, 1042-1048, (2013).
[26] Wu H, Kong D, Ruan Z, Carney T, Fan S H, Cui Y, et. al. A transparent electrode based on metal nanotrogh network, Nature Nanotechnology, 8, 421-425, (2013).
[27] Wu H, Yu G, Pan L, Bao Z, Cui Y, Li-ion Battery Anodes by In-situ Polymerization of Conducting Hydrogel to Conformally Coat Silicon Nanoparticles. Nature Communications, 4, 1943, (2013).
[28] Wu H, Chan J, Jang C, Yao Y, Cui Y. Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control. Nature Nanotechnology, 7, 309-314, (2012).
[29] Wu H, Cui, Y. Designing nanostructured Si anodes for high energy lithium ion batteries. Nano Today, 7, 414-429, (2012).
[30] Wu H, Zheng G, Cui Y, Engineering Empty Space between Si Nanoparticles for Lithium-Ion Battery Anodes. Nano Letters, 12, 904-909, (2012).
[31] Wu, H*, Liu, N*, McDowell, M. T., Yao, Y., Wang, C., Cui, Y, A Yolk-Shell. Design for Stabilized and Scalable Li-Ion Battery Alloy Anodes. Nano Letters, 12, 3315-3321, (2012)
[32]  Hu L*, Gao YF*, Wu H*, Cao AY, Cui Y, Silicon/CNT sponge as Li-ion battery anodes with High Area Capacity, Adv. Energy Mater. 1, 523-527, (2011).
[33] Wu H, Hu L B, Carney T, Ruan Z C, Yu Z F, Fan S H, Cui Y, Low Reflectivity and High Flexibility of ITO Nanofiber Transparent Electrodes, JACS 133, 27–29 (2011)
[34] Wu H, Hu L, Rowell M, McGehee M, Cui Y, Electrospun Metal Nanofiber Webs as High-Performance Transparent Electrode, Nano Letters 10, 4242-4248 (2010)
[35] Wu H*, Hu L*, Cui Y, Laminated paper battery, ACS Nano, 4, 5843-5848 (2010)
[36] Wu H, Han RB, Lin D, Pan W, Hierarchical Metal Nanotubes as High Performance SERS Substrate, Langmuir, 26, 6865–6868 (2010)
[37] Wu H, Sun Y, Lin D, Zhang R, Pan W, GaN Nanofibers Based on Electrospinning, Adv. Mater., 2, 227 (2009) (Highlighted by Nature Asia)
[38] Wu H, Zhang R, Lin D, Pan W, Downs P, Bio-mimetic Nanofiber Patterns with Controlled Wettability, Soft Matter, 12, 2429 (2008) (Featured on cover. Highlighted by Chemical Technology and Chemistry World)
[39] Wu H, Lin DD, Zhang R and Pan W, ZnO FET Assembled by Electrospinning, J. Am. Ceram. Soc., 91, 656 (2008)
[40] Wu H, Zhang R, Liu XX, Lin DD, Pan W, Electrospinning of Fe, Co, and Ni Nanofibers: Synthesis, Assembly, and Magnetic Properties. Chem. Mater., 19, 3506 (2007)
[41] Wu H, Lin DD, Zhang R, Pan W, Facile Synthesis and Assembly of Ag/NiO Nanofibers with High Electrical Conductivity. Chem. Mater., 19, 1895 (2007)
[42] Wu H, Lin D, Pan W, Oriented Nanofibers by a Newly Modified Electrospinning Method. J. Am.Ceram. Soc., 90, 632 (2007)
[43] Wu H, Lin D, Pan W, Fabrication, Assembly, and Electrical Characterization of CuO Nanofibers. Appl. Phys. Lett., 89, 133125 (2006)
[44] Wu H, Pan W. Preparation of Zinc Oxide Nanofibers by Electrospinning. J. Am. Ceram. Soc., 89, 699 (2006)
[45] Hsu P.-C., Wang S., Wu H., Narasimhan V. K., Kong D., Lee H. R., and Cui Y., Performance enhancement of metal nanowire transparent conducting electrodes by mesoscale metal wires, Nature Communications, 4, 2522, (2013).
[46] Hu, L. B., Wu, H.& Cui, Y. Metal nanogrids, nanowires, and nanofibers for transparent electrodes. MRS Bull., 36, 760-765, (2011)
[47] Yang Y, Jeung S, Hu L, Wu H, Lee S, Cui Y, Transparent Li-ion Batteries. PNAS, 108, 13013 (2011)
[48] Pan C, Wu H, Wang C, Wang B, Zhang L, Cheng Z, Hu P, Pan W, Zhou Z, Yang X, Zhu J, Nanowire-Based High-Performance Micro Fuel Cells: One Nanowire, One Fuel Cell, Adv. Mater., 19, 1644 (2008)
[49] Lin D, Wu H, Pan W, Photoswitches and Memories Assembled by Electrospinning Aluminum-Doped Zinc Oxide Single Nanowires, Adv. Mater. 19, 3968 (2007)