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个人简历
工作经历:
2020.03 - 至今,永利集团88304官网在线登录,永利集团88304官网在线登录,副研究员
2019.07 - 2019.10,苏黎世联邦理工学院,材料系,研究助理
教育经历:
2015 - 2019,苏黎世联邦理工学院,材料系,博士
2012 - 2015,西北工业大学,应用化学系,硕士
2008 - 2012,西北工业大学,应用化学系,学士
主要研究领域、方向
硕士生招生专业:化学工程与技术(学术型);化学工程(专业型)
目前的研究方向:高倍率锂/钠/锌离子电池及混合电容器电极材料的开发与应用
主讲本科生课程:《化工原理》、《化工原理课程设计》、《化工原理实验》
研究成果(代表性成果)
主要从事高倍率储能的研究工作。发表SCI论文30余篇,其中以第一作者/通讯作者身份在Advanced Energy Materials, ACS Nano, Energy Storage Materials等国际知名期刊上发表论文10余篇。入选Nanoscale杂志新锐科学家。在电极材料的微结构调控及其高倍率储能应用领域取得一系列原创性成果。
目前承担科研项目
1. 国家自然科学基金青年基金项目,主持,在研。
2. 合肥市留学回国人员创新创业扶持计划项目,主持,在研。
3. 永利集团88304官网在线登录引进人才条件建设费,主持,在研。
4. 中央高校基本科研业务费项目,主持,在研。
获奖及专利情况
2022年度永利集团88304官网在线登录青年教师教学基本功比赛工科组二等奖
著作论文(代表作)
加入合工大后:
1. Haijian Huang*, Juwei Yun, Hao Feng, Tian Tian*, Jiawei Xu, Deli Li, Xue Xia, Zeheng Yang, Weixin Zhang*, Towards high-performance zinc anode for zinc ion hybrid capacitor: Concurrently tailoring hydrodynamic stability, zinc deposition and solvation structure via electrolyte additive, Energy Storage Materials, 2023, 55, 857-866. (IF@2022: 20.831)
2. Haijian Huang#, Xue Xia#, Juwei Yun, Cheng Huang, Deli Li, Bingbing Chen, Zeheng Yang, Weixin Zhang*, Interfacial engineering of hydrated vanadate to promote the fast and highly reversible H+/Zn2+ co-insertion processes for high-performance aqueous rechargeable batteries, Energy Storage Materials, 2022, 52, 473-484. (IF@2022: 20.831)
3. Haijian Huang#, Li Wei#, Tian Tian*, Taoding Cao, Feng Cheng, Zhangxian Chen, Zeheng Yang, Binghui Ge*, Mingliang Tian, Weixin Zhang*, Markus Niederberger, Beyond conventional sodium-ion storage mechanisms: a combinational intercalation/conversion reaction mechanism in Ni-ion modified hydrated vanadate for high-rate sodium-ion storage, Energy Storage Materials, 2022, 47, 579-590. (IF@2022: 20.831)
4. Xue Xia, Juwei Yun, Cheng Huang, Deli Li, Zeheng Yang, Haijian Huang*, and Weixin Zhang*, Ca/Ni codoping enables the integration of high-rate and high-capacity Zn-Ion storage performances for layered Hydrated vanadate, Industrial & Engineering Chemistry Research, 2022, 61, 4212–4221. (IF@2022: 4.326)
5. Cheng Huang, Hong Lv, Zeheng Yang*, Cheng Lian*, Jianglong Du, Guoqiang Liu, Weijian Tang, Zhengjie Xu, Ziwei Chi, Honglai Liu, Haijian Huang*, Weixin Zhang*, Exfoliating spent cathode materials with robust interlayer interactions into atomic-thin nanosheets for boosting the oxygen evolution reaction, Journal of Materials Chemistry A, 2022,10, 3359-3372. (IF@2022: 14.511)
6. Li Wei, Taoding Cao, Deli Li, Zhangxian Chen, Zeheng Yang, Haijian Huang*, Weixin Zhang*, Coupling high rate capability and high capacity in an intercalation-type sodium-ion hybrid capacitor anode material of hydrated vanadate via interlayer-cation engineering, ACS Applied Materials & Interfaces, 2022, 14, 17547-17559. (IF@2022: 10.383)
7. Jun Cao, Haijian Huang*, Yifan Qu, Weijian Tang, Zeheng Yang*, Weixin Zhang*, Construction of a hetero-epitaxial nanostructure at the interface of Li-rich cathode materials to boost their rate capability and cycling performances, Nanoscale, 2021,13, 20488-20497. (IF@2022: 8.307)
8. Xiaoqin Huang#, Deli Li#, Haijian Huang*, Xiao Jiang, Zeheng Yang, Weixin Zhang*, Fast and highly reversible Na+ intercalation/extraction in Zn/Mg dual-doped P2-Na0.67MnO2 cathode material for high-performance Na-ion batteries, Nano Research, 2021, 14, 3531–3537. (IF@2022: 10.269)
9. Weijian Tang, Zhangxian Chen*, Haijian Huang*, Muhammad Irfan, Cheng Huang, Zeheng Yang, Weixin Zhang*, PVP-bridged γ-LiAlO2 nanolayer on Li1.2Ni0.182Co0.08Mn0.538O2 cathode materials for improving the rate capability and cycling stability, Chemical Engineering Science, 2021, 229, 116126. (IF@2022: 4.889)
10. Shuai Cao#, Haijian Huang# (co-first author), Kun Shi, Li Wei, Ning You, Xiaoming Fan, Zeheng Yang*, Weixin Zhang*, Engineering superhydrophilic/ superaerophobic hierarchical structures of Co-CH@NiFe-LDH/NF to boost the oxygen evolution reaction, Chemical Engineering Journal, 2021, 422, 130123. (IF@2022: 16.744)
10. Hong Lv#, Haijian Huang# (co-first author), Cheng Huang, Qiang Gao, Zeheng Yang*, Weixin Zhang*, Electric field driven de-lithiation: A strategy towards comprehensive and efficient recycling of electrode materials from spent lithium ion batteries, Applied Catalysis B: Environmental, 2021, 283, 119634. (IF@2022: 24.319)
12. Junrui Fu#, Haijian Huang# (co-first author), Kun Shi#, Fei Chen, Zeheng Yang, Weixin Zhang*, Al-doped walnut-shell-like P2-type Na2/3Ni1/3Co(1/3-x)Mn1/3AlxO2 as advanced sodium ion battery cathode materials with enhanced rate and cycling performance, Electrochimica Acta, 2020, 349, 136347. (IF@2022: 7.336)
加入合工大前:
1. Huang Haijian, Dipan Kundu, Runyu Yan, Elena Tervoort, Xi Chen, Long Pan, Martin Oschatz, Markus Antonietti, Markus Niederberger*, Fast Na-ion intercalation in zinc vanadate for high-performance Na-ion hybrid capacitor, Advanced Energy Materials, 2018, 8, 1802800. (IF@2022: 29.698)
2. Haijian Huang, Xing Wang, Elena Tervoort, Guobo Zeng, Tian Liu, Xi Chen, Alla Sologubenko, Markus Niederberger*, Nano-sized structurally disordered metal oxide composite aerogels as high-power anodes in hybrid supercapacitors, ACS Nano, 2018, 12, 2753. (IF@2022: 18.027)
3. Haijian Huang, Long Pan, Xi Chen, Elena Tervoort, Alla Sologubenko, Markus Niederberger*, An advanced cathode material for high-power Li-ion storage full cells with a long lifespan, Journal of Materials Chemistry A, 2019, 7, 22444. (IF@2022: 14.511)
4. Haijian Huang, Tian Tian, Long Pan, Xi Chen, Elena Tervoort, Chih-Jen Shih, Markus Niederberger*, Layered Metal vanadates with different interlayer cations for high-rate Na-ion storage. Journal of Materials Chemistry A, 2019, 7, 16109. (IF@2022: 14.511)
5. Haijian Huang, Markus Niederberger*, Towards fast-charging technologies in Li+/Na+ storage: from the perspectives of pseudocapacitive materials and non-aqueous hybrid capacitors, Nanoscale, 2019, 11, 19225. (IF@2022: 8.307)
6. Haijian Huang, Ying Huang*, Mingyue Wang, Xuefang Chen, Yang Zhao, Ke Wang, Haiwei Wu, Preparation of hollow Zn2SnO4 boxes@C/graphene ternary composites with a triple buffering structure and their electrochemical performance for lithium-ion Batteries, Electrochimica Acta, 2014, 147, 201. (IF@2022: 7.336)