左朋建科研成果

基本信息 科学研究 教育教学 招生招聘 Publications 新建主栏目 基本信息 名称 左朋建：教授/博士生导师，龙江青年学者，国家级一流课程《电化学原理》负责人。 工作经历 名称 2013-今 哈尔滨工业大学 化工与化学学院 博士生导师 2017-今 哈尔滨工业大学 化工与化学学院 教授 2007-2017 哈尔滨工业大学 化工学院 讲师/副教授 2017.3-4 美国布鲁克海文国家实验室（BNL） 访问学者 2012-2013 美国西北太平洋国家实验室（PNNL） 访问学者 2007-2012 哈尔滨工业大学特种陶瓷研究所 博士后 教育经历 名称 1998-2002 哈尔滨工业大学 电化学 工学学士 2002-2007 哈尔滨工业大学 化学工程与技术 硕士、博士 研究领域 名称 新型电化学储能机制 高比特性电化学体系 理论计算与材料设计 团队成员 名称 化工与化学学院电源所 奖项成果 奖项名称 先进电池关键材料的设计、制备与电极反应机理 获奖时间 2008 完成人 所获奖项 黑龙江省科学技术一等奖 简单介绍 奖项名称 锂离子电池寿命提升与高效制造关键技术及产业化 获奖时间 2019 完成人 所获奖项 黑龙江省技术发明一等奖 简单介绍 奖项名称 高能量密度聚合物锂离子电池研发与产业化 获奖时间 2020 完成人 所获奖项 广东省科技进步二等奖 简单介绍 我的新闻 新闻标题 Independent quote for a Chemistry World story 发布时间 2015-12-08 http://www.rsc.org/chemistryworld/2015/12/truffle-lithium-sulfur-battery-cathode 科研项目 项目名称 分级核壳结构[M@M@#%Ox]@C材料可控合成及其组分在锂硫电池中的协同作用机制 项目来源 国家自然科学基金 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 准固态动力锂电池的研发与产业化应用 项目来源 广东省重点研发计划 开始时间 2019-11-08 结束时间 2023-10-31 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 突破锂离子电池硅基阳极材料关键性能瓶颈的基础理论研究 项目来源 国家自然科学基金 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 燃料电池膜电极杂质适应性研究 项目来源 国家重点研发计划 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 一维纳米硅酸盐正极材料的可控制备及嵌脱锂机制研究 项目来源 国家自然科学基金 开始时间 2010-01-01 结束时间 2012-12-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 锂硫电池产气机制及抑制 项目来源 上海航天科技创新基金 开始时间 2015-08-01 结束时间 2017-10-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 锂离子电池负极材料制备及电化学性能 项目来源 国家博士后特别资助 开始时间 2009-10-01 结束时间 2012-09-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 石墨烯电极的原位制备及性能提升 项目来源 黑龙江省博士后科研启动资助项目 开始时间 2012-05-01 结束时间 2015-12-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 高能量铝壳锂离子电池和模块技术开发 项目来源 国家863 开始时间 2012-01-01 结束时间 2014-12-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 负极材料生产关键技术及电池制造 项目来源 黑龙江省应用技术研究与开发计划重大项目 开始时间 2014-09-01 结束时间 2017-08-01 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 磷酸锰铁锂正极材料产业化关键技术 项目来源 哈尔滨市科技创新人才专项基金 开始时间 2015-09-01 结束时间 2017-10-01 项目经费 担任角色 项目类别 项目状态 简单介绍 讲授课程 名称 本科生课程：电化学原理 硕士生课程：电化学软件应用与模拟计算(密度泛函理论及量化基础) 博士生课程：电化学科学与应用技术 留学生课程：Kinetics of Electrode Processes 招生信息 名称 硕士招生: 不超过6人/年 博士招生: 不超过6人/年 欢迎具有化学、材料、固体物理等专业背景的同学报考 博士招生方式1：优秀生源快响行动（快速响应，随时提交读博申请），具体方法见网址： http://yzb.hit.edu.cn/2023/0609/c8824a313710/page.htm （关于哈尔滨工业大学博士研究生招生优秀生源快响行动的通知） 博士招生方式2：申请-考核模式（学校统一安排，每年2次），具体方法见网址： http://yzb.hit.edu.cn/8824/list.htm （关于我校博士研究生招生“申请-考核” 的工作通知） Contact Information 名称 Pengjian Zuo, Ph.D, Professor Department of Electrochemistry School of Chemistry and Chemical Engineering Harbin Institute of Technology PO Box 1247, 92 West Dazhi Street ,Harbin, China, 150001 Email: zuopj@hit.edu.cn ; zuopjhit@gmail.com Biography 名称 Pengjian Zuo is currently a Full Professor in School of Chemistry and Chemical Engineering, Harbin Institute of Technology (HIT). He received the B.E. and Ph.D. degree in Chemical Engineering and Technology at HIT in 2002 and 2007, respectively. He was a visiting scholar at the Pacific Northwest National Laboratory (PNNL) during Sept 2012 to Sept 2013, and Brookhaven National Laboratory throughout April, 2017. His research interests focus on the fundamental study of electrochemistry and electrode materials on lithium/sodium ion batteries, lithium/magnesium sulfur batteries and lithium metal batteries. Education 名称 Ph.D., in Chemical Engineering and Technology, Harbin Institute of Technology, China, 2007 M.S., in Chemical Engineering and Technology, Harbin Institute of Technology, China, 2005 B.S., in Electrochemistry, Harbin Institute of Technology, China, 2002 Selected Publications 名称 Zhang, R.; Cui, C.; Xiao, R.; Li, R.; Mu, T.; Huo, H.; Ma, Y.; Yin, G.; Zuo, P., Interface regulation of Mg anode and redox couple conversion in cathode by copper for high-performance Mg-S battery. Chemical Engineering Journal 2023, 451, 138663. Li, R.; Fu, C.; Cui, B.; Cui, C.; Mu, X.; Gao, Y.; Yin, G.; Zuo, P., Constructing highly stable solid electrolyte interphase for Si@Graphene anodes by coupling 2-isocyanatoethyl methacrylate and fluoroethylene carbonate. Journal of Power Sources 2023, 554, 232337. Zhou, Q.; Fu, C.; Li, R.; Zhang, X.; Xie, B.; Gao, Y.; Yin, G.; Zuo, P., Poly (vinyl ethylene carbonate)-based dual-salt gel polymer electrolyte enabling high voltage lithium metal batteries. Chemical Engineering Journal 2022, 437, 135419. Zhang, R.; Cui, C.; Xiao, R.; Ruinan, L.; Mu, T.; Huo, H.; Ma, Y.; Yin, G.; Zuo, P., Enabling the conventional TFSI-based electrolytes for high-performance Mg/Li hybrid batteries by Mg electrode interfacial regulation. Chemical Engineering Journal 2022, 444, 136592. Yu, W.; Ma, S.; He, M.; Li, R.; Yang, H.; Li, Y.; Yin, G.; Zuo, P., Immobilization and Kinetic Acceleration of Lithium Polysulfides by Iodine-Doped MXene Nanosheets in Lithium–Sulfur Batteries. The Journal of Physical Chemistry C 2022, 126 (27), 10986-10994. Xie, B.; Sun, B.; Gao, T.; Ma, Y.; Yin, G.; Zuo, P., Recent progress of Prussian blue analogues as cathode materials for nonaqueous sodium-ion batteries. Coordination Chemistry Reviews 2022, 460, 214478. Wang, C.; Wang, Q.-C.; Wang, K.-X.; De Ras, M.; Chu, K.; Gu, L.-L.; Lai, F.; Qiu, S.-Y.; Guo, H.; Zuo, P.-J.; Hofkens, J.; Zhu, X.-D., Bimetallic NiCo boride nanoparticles confined in a MXene network enable efficient ambient ammonia electrosynthesis. Journal of Energy Chemistry 2022. Mu, T.; Xiang, L.; Wan, X.; Lou, S.; Du, C.; Zuo, P.; Yin, G., Ultrahigh areal capacity silicon anodes realized via manipulating electrode structure. Energy Storage Materials 2022, 53, 958-968. Mu, T.; Sun, Y.; Wang, C.; Zhao, Y.; Doyle-Davis, K.; Liang, J.; Sui, X.; Li, R.; Du, C.; Zuo, P.; Yin, G.; Sun, X., Long-life silicon anodes by conformal molecular-deposited polyurea interface for lithium ion batteries. Nano Energy 2022, 107829. Li, R.; Liu, Q.; Zhang, R.; Li, Y.; Ma, Y.; Huo, H.; Gao, Y.; Zuo, P.; Wang, J.; Yin, G., Achieving high-energy-density magnesium/sulfur battery via a passivation-free Mg-Li alloy anode. Energy Storage Materials 2022, 50, 380-386. Fu, C.; Zhang, X.; Cui, C.; Zhang, X.; Lou, S.; Ma, Y.; Huo, H.; Gao, Y.; Zuo, P.; Yin, G., Molecular bridges stabilize lithium metal anode and solid-state electrolyte interface. Chemical Engineering Journal 2022, 432, 134271. Zuo, P.; Yin, G., Chelated electrolytes for divalent metal ions. Science 2021, 374 (6564), 156. Zhang, R.; Cui, C.; Li, R.; Li, Y.; Du, C.; Gao, Y.; Huo, H.; Ma, Y.; Zuo, P.; Yin, G., An artificial interphase enables the use of Mg(TFSI)2-based electrolytes in magnesium metal batteries. Chemical Engineering Journal 2021, 426, 130751. Wang, N.; Ma, S.; Zuo, P.; Duan, J.; Hou, B., Recent Progress of Electrochemical Production of Hydrogen Peroxide by Two-Electron Oxygen Reduction Reaction. Advanced Science 2021, 8 (15), 2100076. Wang, C.; Gu, L.-L.; Qiu, S.-Y.; Gao, J.; Zhang, Y.-C.; Wang, K.-X.; Zou, J.-J.; Zuo, P.-J.; Zhu, X.-D., Modulating CoFe2O4 nanocube with oxygen vacancy and carbon wrapper towards enhanced electrocatalytic nitrogen reduction to ammonia. Applied Catalysis B: Environmental 2021, 297, 120452. Xie, B.; Wang, L.; Li, H.; Huo, H.; Cui, C.; Sun, B.; Ma, Y.; Wang, J.; Yin, G.; Zuo, P., An interface-reinforced rhombohedral Prussian blue analogue in semi-solid state electrolyte for sodium-ion battery. Energy Storage Materials 2021, 36, 99-107. Wang, L.; Dai, A.; Xu, W.; Lee, S.; Cha, W.; Harder, R.; Liu, T.; Ren, Y.; Yin, G.; Zuo, P.; Wang, J.; Lu, J.; Wang, J., Structural Distortion Induced by Manganese Activation in a Lithium-Rich Layered Cathode. Journal of the American Chemical Society 2020, 142 (35), 14966-14973. Wang, W.; Zhang, R.; Zuo, P.; Gao, Y.; Yin, G.; Du, C.; Wang, J.; Huo, H.; Ma, Y., An Interphase-enhanced Liquid Na-K Anode for Dendrite-free Alkali Metal Batteries Enabled by SiCl4 Electrolyte Additive. Energy Storage Materials 2021, 37, 199-206. Li, Y.; Zuo, P.; Zhang, N.; Yin, X.; Li, R.; He, M.; Huo, H.; Ma, Y.; Du, C.; Gao, Y.; Yin, G., Improving electrochemical performance of rechargeable magnesium batteries with conditioning-free Mg-Cl complex electrolyte. Chemical Engineering Journal 2021, 403, 126398. Li, Y.; Guan, S.; Huo, H.; Ma, Y.; Gao, Y.; Zuo, P.; Yin, G., A Review of Magnesium Aluminum Chloride Complex Electrolytes for Mg Batteries. Advanced Functional Materials 2021, 2100650. Wang, C.; Wang, F.; Zhang, L.-S.; Qiu, S.-Y.; Gu, L.-L.; Wang, K.-X.; Zuo, P.-J.; Sun, K.-N.; Zhu, X.-D., Multi-dimensionally hierarchical self-supported Cu@Cu2%2B1O@Co3O4 heterostructure enabling superior lithium-ion storage and electrocatalytic oxygen evolution. Chemical Engineering Journal 2021, 405, 126699. Mu, T.; Lou, S.; Holmes, N. G.; Wang, C.; He, M.; Shen, B.; Lin, X.; Zuo, P.; Ma, Y.; Li, R.; Du, C.; Wang, J.; Yin, G.; Sun, X., Reversible Silicon Anodes with Long Cycles by Multifunctional Volumetric Buffer Layers. ACS applied materials & interfaces 2021, 13 (3), 4093-4101. Ma, S.; Zhang, Z.; Wang, Y.; Yu, Z.; Cui, C.; He, M.; Huo, H.; Yin, G.; Zuo, P., Iodine-doped sulfurized polyacrylonitrile with enhanced electrochemical performance for lithium sulfur batteries in carbonate electrolyte. Chemical Engineering Journal 2021, 418, 129410. Liu, Z.; Ma, S.; Mu, X.; Li, R.; Yin, G.; Zuo, P., A Scalable Cathode Chemical Prelithiation Strategy for Advanced Silicon-Based Lithium Ion Full Batteries. ACS applied materials & interfaces 2021, 13 (10), 11985-11994. Li, R.; Li, Y.; Zhang, R.; He, M.; Ma, Y.; Huo, H.; Zuo, P.; Yin, G., Voltage hysteresis of magnesium anode: Taking magnesium-sulfur battery as an example. Electrochimica Acta 2021, 369, 137685. He, M.; Li, X.; Li, W.; Zheng, M.; Wang, J.; Ma, S.; Ma, Y.; Yin, G.; Zuo, P.; Sun, X., Immobilization and kinetic promotion of polysulfides by molybdenum carbide in lithium-sulfur batteries. Chemical Engineering Journal 2021, 411, 128563. Wang, Y.; Zuo, P. J.; Ma, S. B.; Xie, B. X.; Yu, Z. J.; Yin, G. P., DFT and experimental study of nano red phosphorus anchoring on sulfurized polyacrylonitrile for lithium-ion batteries. Chemical Communications 2020, 56 (84), 12857-12860. Wang, Y.; He, M.; Ma, S.; Yang, C.; Yu, M.; Yin, G.; Zuo, P., Low-Temperature Solution Synthesis of Black Phosphorus from Red Phosphorus: Crystallization Mechanism and Lithium Ion Battery Applications. The Journal of Physical Chemistry Letters 2020, 2708-2716. Wang, Y.; Gong, W. Q.; Zuo, P. J.; Kang, L. H.; Yin, G. P., A Novel Spherical Boron Phosphide as a High-Efficiency Overall Water Splitting Catalyst: A Density Functional Theory Study. Catalysis Letters 2020, 150 (2), 544-554. Wang, K.; Zhu, X.; Hu, Y.; Qiu, S.; Gu, L.; Wang, C.; Zuo, P., Stable anchoring and uniform distribution of SiO2 nanotubes on reduced graphene oxide through electrostatic self-assembly for ultra-high lithium storage performance. Carbon 2020, 167, 835-842. Ma, S.; Wang, Y.; Fu, C.; Ma, Y.; Gao, Y.; Yin, G.; Zuo, P., Black phosphorus-modified sulfurized polyacrylonitrile with high C-rate and cycling performance in ether-based electrolyte for lithium sulfur batteries. Chemical Communications 2020. Li, X.; Qian, Z.; Han, G.; Sun, B.; Zuo, P.; Du, C.; Ma, Y.; Huo, H.; Lou, S.; Yin, G., Perovskite LaCoxMn1–xO3？σ with Tunable Defect and Surface Structures as Cathode Catalysts for Li–O2 Batteries. ACS applied materials & interfaces 2020, 12 (9), 10452-10460. He, M.; Li, Y.; Liu, S.; Guo, R.; Ma, Y.; Xie, J.; Huo, H.; Cheng, X.; Yin, G.; Zuo, P., Facile carbon fiber-sewed high areal density electrode for lithium sulfur batteries. Chemical Communications 2020, 56 (73), 10758-10761. Xie, B.; Wang, L.; Shu, J.; Zhou, X.; Yu, Z.; Huo, H.; Ma, Y.; Cheng, X.; Yin, G.; Zuo, P., Understanding the Structural Evolution and Lattice Water Movement for Rhombohedral Nickel Hexacyanoferrate upon Sodium Migration. ACS applied materials & interfaces 2019, 11 (50), 46705-46713. Xie, B.; Zuo, P.; Wang, L.; Wang, J.; Huo, H.; He, M.; Shu, J.; Li, H.; Lou, S.; Yin, G., Achieving long-life Prussian blue analogue cathode for Na-ion batteries via triple-cation lattice substitution and coordinated water capture. Nano Energy 2019, 61, 201-210. Cao, Y.; Zuo, P.; Lou, S.; Sun, Z.; Li, Q.; Huo, H.; Ma, Y.; Du, C.; Gao, Y.; Yin, G., A quasi-solid-state Li–S battery with high energy density, superior stability and safety. Journal of Materials Chemistry A 2019, 7 (11), 6533-6542. Ma, S.; Zuo, P.; Zhang, H.; Yu, Z.; Cui, C.; He, M.; Yin, G., Iodine-doped sulfurized polyacrylonitrile with enhanced electrochemical performance for room-temperature sodium/potassium sulfur batteries. Chem Commun 2019. https://doi.org/10.1039/c9cc01612k Ma, S.; Wang, L.; Wang, Y.; Zuo, P.; He, M.; Zhang, H.; Ma, L.; Wu, T.; Yin, G., Palladium nanocrystals-imbedded mesoporous hollow carbon spheres with enhanced electrochemical kinetics for high performance lithium sulfur batteries. Carbon 2019, 143, 878-889. Li, Y.; Zuo, P.; Li, R.; He, M.; Ma, Y.; Shi, Y.; Cheng, X.; Du, C.; Yin, G., Electrochemically-driven interphase conditioning of magnesium electrode for magnesium sulfur batteries. Journal of Energy Chemistry 2019, 37, 215-219. He, X.; Xu, X.; Wang, L.; Du, C.; Cheng, X.; Zuo, P.; Ma, Y.; Yin, G., Enhanced Electrochemical Performance of LiNi0.8Co0.15Al0.05O2 Cathode Material via Li2TiO3 Nanoparticles Coating. Journal of the Electrochemical Society 2019, 166 (2), A143-A150. He, X.; Han, G.; Lou, S.; Du, L.; Xu, X.; Du, C.; Cheng, X.; Zuo, P.; Ma, Y.; Huo, H.; Yin, G., Improved Electrochemical Performance of LiNi0.8Co0.15Al0.05O2 Cathode Material by Coating of Graphene Nanodots. Journal of the Electrochemical Society 2019, 166 (6), A1038-A1044. Geng, T.; Du, C.; Cheng, X.; Xu, X.; Jian, J.; He, X.; Zuo, P.; Yin, G., A multifunctional silicotungstic acid-modified Li-rich manganese-based cathode material with excellent electrochemical properties. Journal of Solid State Electrochemistry 2019, 23 (1), 101-108. Fan, P.; Mu, T.; Lou, S.; Cheng, X.; Gao, Y.; Du, C.; Zuo, P.; Ma, Y.; Yin, G., Amorphous carbon-encapsulated Si nanoparticles loading on MCMB with sandwich structure for lithium ion batteries. Electrochimica Acta 2019, 306, 590-598. Mu, T.; Zuo, P.; Lou, S.; Pan, Q.; Zhang, H.; Du, C.; Gao, Y.; Cheng, X.; Ma, Y.; Huo, H.; Yin, G., A three-dimensional silicon/nitrogen-doped graphitized carbon composite as high-performance anode material for lithium ion batteries. Journal of Alloys and Compounds 2019, 777, 190-197. Zhou, X.; Liu, Y.; Du, C.; Ren, Y.; Mu, T.; Zuo, P.; Yin, G.; Ma, Y.; Cheng, X.; Gao, Y., Polyaniline-encapsulated silicon on three-dimensional carbon nanotubes foam with enhanced electrochemical performance for lithium-ion batteries. Journal of Power Sources 2018, 381, 156-163. Zhou, X.; Liu, Y.; Du, C.; Ren, Y.; Li, X.; Zuo, P.; Yin, G.; Ma, Y.; Cheng, X.; Gao, Y., Free-Standing Sandwich-Type Graphene/Nanocellulose/Silicon Laminar Anode for Flexible Rechargeable Lithium Ion Batteries. ACS applied materials & interfaces 2018, 10 (35), 29638-29646. Zhang, H.; Wang, L.; Li, Q.; Ma, L.; Wu, T.; Ma, Y.; Wang, J.; Du, C.; Yin, G.; Zuo, P., Cobalt nanoparticle-encapsulated carbon nanowire arrays: Enabling the fast redox reaction kinetics of lithium-sulfur batteries. Carbon 2018, 140, 385-393. Yang, J.; Du, C.; Wang, T.; Gao, Y.; Cheng, X.; Zuo, P.; Ma, Y.; Wang, J.; Yin, G.; Xie, J.; Lei, B., Rapid Prediction of the Open-Circuit-Voltage of Lithium Ion Batteries Based on an Effective Voltage Relaxation Model. Energies 2018, 11 (12). Wu, X.; Lou, S.; Cheng, X.; Lin, C.; Gao, J.; Ma, Y.; Zuo, P.; Du, C.; Gao, Y.; Yin, G., Unravelling the Interface Layer Formation and Gas Evolution/Suppression on a TiNb2O7 Anode for Lithium-Ion Batteries. ACS applied materials & interfaces 2018, 10 (32), 27056-27062. Wang, L.; Zhang, H.; Liu, Q.; Wang, J.; Ren, Y.; Zhang, X.; Yin, G.; Wang, J.; Zuo, P., Modifying High-Voltage Olivine-Type LiMnPO4 Cathode via Mg Substitution in High-Orientation Crystal. ACS Applied Energy Materials 2018, 1 (11), 5928-5935. Wang, L.; Wang, J.; Zuo, P., Probing Battery Electrochemistry with In Operando Synchrotron X-Ray Imaging Techniques. Small Methods 2018, 2 (8). Wang, L.; Wang, J.; Guo, F.; Ma, L.; Ren, Y.; Wu, T.; Zuo, P.; Yin, G.; Wang, J., Understanding the initial irreversibility of metal sulfides for sodium-ion batteries via operando techniques. Nano Energy 2018, 43, 184-191. Sun, S.; Guan, T.; Zuo, P.; Gao, Y.; Cheng, X.; Du, C.; Yin, G., Accelerated Aging Analysis on Cycle Life of LiFePO4/Graphite Batteries Based on Different Rates. Chemelectrochem 2018, 5 (16), 2301-2309. Qian, Z.; Sun, B.; Du, L.; Lou, S.; Du, C.; Zuo, P.; Ma, Y.; Cheng, X.; Gao, Y.; Yin, G., Insights into the role of oxygen functional groups and defects in the rechargeable nonaqueous Li-O-2 batteries. Electrochimica Acta 2018, 292, 838-845. Pei, H.; Guo, R.; Guo, W.; Liu, W.; Li, Y.; Xie, J.; Zuo, P.; Yu, S., Sulfur nanoparticles/disordered mesoporous carbon composite based on nanotemplates in-situ transformation route. Chemical Physics Letters 2018, 706, 133-139. Pan, Q.; Lou, S.; Zuo, P.; Mu, T.; Du, C.; Cheng, X.; Ma, Y.; Gao, Y.; Yin, G., Toward Promising Turnkey Solution for Next-Generation Lithium Ion Batteries: Scale Preparation, Fading Analysis, and Enhanced Performance of Microsized Si/C Composites. Acs Applied Energy Materials 2018, 1 (12), 6977-6985. Mu, T.; Zuo, P.; Lou, S.; Pan, Q.; Li, Q.; Du, C.; Gao, Y.; Cheng, X.; Ma, Y.; Yin, G., A two-dimensional nitrogen-rich carbon/silicon composite as high performance anode material for lithium ion batteries. Chemical Engineering Journal 2018, 341, 37-46. Ma, Y.; Zhou, Z.; Li, C.; Wang, L.; Wang, Y.; Cheng, X.; Zuo, P.; Du, C.; Huo, H.; Gao, Y.; Yin, G., Enabling reliable lithium metal batteries by a bifunctional anionic electrolyte additive. Energy Storage Materials 2018, 11, 197-204. Lou, S.; Zhang, H.; Guo, J.; Ma, Y.; Li, C.; Huo, H.; Zuo, P.; Yin, G., A porous N-doped carbon aggregate as sulfur host for lithium-sulfur batteries. Ionics 2018. Lou, S.; Ma, Y.; Zhou, Z.; Huo, H.; Zuo, P.; Cheng, X.; Qu, X.; Gao, Y.; Du, C.; Yin, G., Unravelling the Enhanced High-Temperature Performance of Lithium-Rich Oxide Cathode with Methyl Diphenylphosphinite as Electrolyte Additive. Chemelectrochem 2018, 5 (12), 1569-1575. Lou, S.; Cheng, X.; Gao, J.; Li, Q.; Wang, L.; Cao, Y.; Ma, Y.; Zuo, P.; Gao, Y.; Du, C.; Huo, H.; Yin, G., Pseudocapacitive Li%2B intercalation in porous Ti2Nb10O29 nanospheres enables ultra-fast lithium storage. Energy Storage Materials 2018, 11, 57-66. Li, C.; Qian, Z.; Ma, Y.; Zuo, P.; Du, C.; Huo, H.; Yin, G., Bifunctional electrolyte additive KI to improve the cycling performance of Li-O-2 batteries. New Journal of Chemistry 2018, 42 (21), 17311-17316. He, M.; Zuo, P.; Zhang, H.; Hua, J.; Ma, Y.; Du, C.; Cheng, X.; Gao, Y.; Yin, G., Polymeric multilayer-modified manganese dioxide with hollow porous structure as sulfur host for lithium sulfur batteries. Electrochimica Acta 2018, 259, 440-448. Guan, T.; Sun, S.; Yu, F.; Gao, Y.; Fan, P.; Zuo, P.; Du, C.; Yin, G., The degradation of LiCoO2/graphite batteries at different rates. Electrochimica Acta 2018, 279, 204-212. Fu, C.; Lou, S.; Cao, Y.; Ma, Y.; Du, C.; Zuo, P.; Cheng, X.; Tang, W.; Wu, Y.; Gao, Y.; Huo, H.; Yin, G., Excellent room-temperature performance of lithium metal polymer battery with enhanced interfacial compatibility. Electrochimica Acta 2018, 283, 1261-1268. 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Electrochimica Acta 2007, 52, 4878-4883. 招生信息 名称 硕士招生: 不超过6人/年 博士招生: 不超过6人/年 欢迎具有化学、材料、固体物理等专业背景的同学报考 博士招生方式1：优秀生源快响行动（快速响应，随时提交读博申请），具体方法见网址： http://yzb.hit.edu.cn/2023/0609/c8824a313710/page.htm （关于哈尔滨工业大学博士研究生招生优秀生源快响行动的通知） 博士招生方式2：申请-考核模式（学校统一安排，每年2次），具体方法见网址： http://yzb.hit.edu.cn/8824/list.htm （关于我校博士研究生招生“申请-考核” 的工作通知） 助理教授与博士后招聘 名称 面向国内外公开招聘动力与储能电池材料与器件研究方向助理教授和博士后研究人员2-4名，诚挚欢迎相关领域的青年学者加入。 一、申报条件 1.遵纪守法、恪守学术道德规范、身心健康、热爱科研、积极进取、踏实勤奋、团结协作； 2.助理教授年龄一般不超过30周岁，常规博士后年龄不超过35周岁； 3.获得博士学位且时间不满三年； 4.在领域内高水平期刊上以第一作者发表学术论文，具备独立承担相关方向研究工作的能力。 二、相关待遇 1.实验室提供良好的科研条件和充足稳定的经费支持； 2. 助理教授首聘期资助标准31-35万元/年，学校提供科研启动经费10万元。常规博士后首聘期资助标准21-25万元/年。根据业绩表现和贡献情况提供额外奖励。特别优秀者一事一议。 3.常规博士后进站1年内可申请助理教授； 4.博士后在站期间均可申请教师准聘岗或专职科研岗位（副高及以上职务），获聘后按相应岗位聘任并执行相应待遇。 三、应聘方式 请应聘人员将个人简历（包括个人信息、学习工作经历、代表论文、获奖情况、科研项目承担完成情况等）发送至：zuopj@hit.edu.cn, 邮件标题请注明“博士后应聘-本人姓名”。 招聘信息长期有效，欢迎加盟，共创未来。