金属材料研究所
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胡成
发布时间:2018年06月25日 10:50    作者:    点击:[]
                                                                                                                                                                                                                                                                                                                                                                                                                                   

   

 胡    成 

出生年月

1987.06

 性   别 

    博   士     

      专业技术职务      

    教   授    

博导聘任时间

2018.09

学术团体兼职

中国机械工程学会会员、澳大利亚工程师协会会员、英国皇家化学会会员

个人主页(定期更新):https://faculty.sdu.edu.cn/hucheng/zh_CN/index.htm

1. 学习和工作经历

2018.03-至今     山东大学,bwin必赢,教授、博士生导师、齐鲁青年学者

2015.04-2018.03  英国拉夫堡大学,科学学院,博士后

2010.10-2015.03  澳大利亚阿德莱德大学,化学工程学院,材料学,博士

2006.09-2010.06  山东大学,bwin必赢,金属材料工程,学士

2. 研究领域介绍

储能材料与器件

1. 碱金属(锂/钠/钾)负极材料

2. 锂硫电池正极材料

3. 纳米多孔碳材料

4. 表界面电化学催化

5. 过渡金属配合物

3. 取得科研成果情况

代表性论文:

[1]        C. Hu, S. Sedghi, S. H. Madani, A. Silvestre-Albero, H. Sakamoto, P. Kwong, P. Pendleton, R. J. Smernik, F. Rodriguez-Reinoso, K. Kaneko, M. J. Biggs*. Control of the Pore Size Distribution and Its Spatial Homogeneity in Particulate Activated Carbon. Carbon, 2014, 78, 113-120. (IF=11.307)

[2]        C. Hu, A. C. Y. Liu, M. Weyland, S. H. Madani, P. Pendleton, F. Rodríguez-Reinoso, K. Kaneko, M. J. Biggs*. A Multi-Method Study of the Transformation of the Carbonaceous Skeleton of a Polymer-Based Nanoporous Carbon Along the Activation Pathway. Carbon, 2015, 85, 119-134. (IF=11.307)

[3]        C. Hu, S. Sedghi, A. Silvestre-Albero, G. G. Andersson, A. Sharma, P. Pendleton, F. Rodríguez-Reinoso, K. Kaneko, M. J. Biggs*. Raman Spectroscopy Study of the Transformation of the Carbonaceous Skeleton of a Polymer-Based Nanoporous Carbon Along the Thermal Annealing Pathway. Carbon, 2015, 85, 147-158. (IF=11.307)

[4]        C. Hu, C. Kirk, Q. Cai, C. Cuadrado-Collados, J. Silvestre-Albero, F. Rodríguez-Reinoso, M. J. Biggs*. A High-Volumetric-Capacity Cathode Based on Interconnected Close-Packed N-Doped Porous Carbon Nanospheres for Long-Life Lithium–Sulfur Batteries. Advanced Energy Materials, 2017, 7, 1701082. (IF=29.698)

[5]        C. Hu, C. Kirk, J. Silvestre-Albero, F. Rodriguez-Reinoso, M. J. Biggs*. Free-Standing Compact Cathodes for High Volumetric and Gravimetric Capacity Li-S Batteries. Journal of Materials Chemistry A, 2017, 5, 19924-19933. (IF=14.511)

[6]        X.-X. Yang, X.-T. Li, C.-F. Zhao, Z.-H. Fu, Q.-S. Zhang, C. Hu*. Promoted Deposition of Three-Dimensional Li2s on Catalytic Co Phthalocyanine Nanorods for Stable High-Loading Lithium–Sulfur Batteries. ACS Applied Materials & Interfaces, 2020, 12, 32752-32763. (IF=10.383)

[7]        X.-X. Yang, W.-Z. Du, X.-T. Li, Y. Zhang, Z. Qian, M. J. Biggs, C. Hu*. Multiwall Carbon Nanotubes Covalently Modified by Cobalt (Ii) Tetraaminophthalocyanines as an Efficient Sulfur Redox Catalyst for High-Performance Lithium-Sulfur Batteries. ChemSusChem, 2020, 13, 3034-3044. (IF=9.140)

[8]        J. Ye, Z. Zheng, G. Xia, C. Hu*. Fe3Se4 Nanoparticles Confined in Hollow Carbon Nanocages for High-Performance Sodium-Ion Batteries. Applied Surface Science, 2020, 519. (IF=7.392)

[9]        F. Weng#, C. Hu#, R. Zhang#, H. Yu, J. Liu, M. Wang, Y. Li, L. Xie, C. Chen, K. Liang, D. Zhao, B. Kong. Laser Cladding Induced Spherical Graphitic Phases by Super-Assembly of Graphene-Like Microstructures and the Antifriction Behavior. ACS Central Science, 2021, 7, 318-326. (IF=18.728)

[10]        G. Xia, J. Ye, Z. Zheng, X. Li, C. Chen, C. Hu*. Catalytic FeP Decorated Carbon Black as a Multifunctional Conducting Additive for High-Performance Lithium-Sulfur Batteries. Carbon, 2021, 172, 96-105. (IF=11.307)

[11]        J. Ye, X. Li, G. Xia, G. Gong, Z. Zheng, C. Chen, C. Hu*. P-Doped CoSe2 Nanoparticles Embedded in 3d Honeycomb-Like Carbon Network for Long Cycle-Life Na-Ion Batteries. Journal of Materials Science & Technology, 2021, 77, 100-107. (IF=10.320)

[12]        X. Li, X. Yang, J. Ye, G. Xia, Z. Fu, C. Hu*. A Trifunctional Modified Separator Based on Fe Tetraaminophthalocyanine@rGO for Lithium-Sulfur Batteries. Chemical Engineering Journal, 2021, 405, 126947. (IF=16.744)

[13]        L. Shi, H. Fang, X. Yang, J. Xue, C. Li, S. Hou, C. Hu*. Fe-Cation Doping in NiSe2 as an Effective Method of Electronic Structure Modulation Towards High-Performance Lithium-Sulfur Batteries. ChemSusChem, 2021, 14, 1710-1719. (IF=9.140)

[14]        C. Zhao, X. Yang, G. Xia, J. Liu, W. Zhang, J. Xue, S. Hou, C. Hu*. Enhanced Sulfur Redox Kinetics and Polysulfide Regulations with Petal-Like Nickel Hydroxide Nanosheets/rGO Modified Separators in Li-S Batteries. Applied Surface Science, 2021, 551, 149393. (IF=7.392)

[15]        X. Yang, G. Xia, J. Ye, W. Du, Z. Zheng, A. Zhang, X. Li, C. Chen, C. Hu*. High-Content Co-Nx Sites on Carbon Nanotubes for Effective Sulfur Catalysis in Lithium–Sulfur Batteries. Applied Surface Science, 2021, 541, 148632. (IF=7.392)

[16]        J. Ye, K. Xing, Q. Zhang, G. Xia, X. Yang, Z. Zheng, C. Chen, C. Hu*. Se-Doped CoP Nanoparticles Confined in 3d Porous Carbon Frameworks with Enlarged Interlayer Spacings Boost Potassium-Ion Storage. Applied Surface Science, 2021, 543, 148867. (IF=7.392)

[17]        G. Xia, Z. Zheng, J. Ye, X. Li, M. J. Biggs, C. Hu*. Carbon Microspheres with Embedded FeP Nanoparticles as a Cathode Electrocatalyst in Li-S Batteries. Chemical Engineering Journal, 2021, 406, 126823. (IF=16.744)

[18]        X. Li, J. Ye, Z. Fu, G. Xia, C. Chen, C. Hu. Dendrite-Free Li Metal Anodes and the Formation of Plating Textures with a High Transference Number Modified Separator. Small, 2021, 17, e2101881. (IF=15.153)

[19]        G. Xia, L. Zhang, J. Ye, Z. Fu, X. Li, X. Yang, Z. Zheng, C. Chen, C. Hu*. Amorphous Transformation of FeP Enabling Enhanced Sulfur Catalysis and Anchoring in High-Performance Li-S Batteries. Chemical Engineering Journal, 2021, 133705. (IF=16.744)

[20]        X. Li, Z. Fu, J. Wang, X. Zhao, Y. Zhang, W. Liu, Q. Cai, C. Hu*. Dilithium Phthalocyanine as Electrolyte Additive for the Regulation of Ion Solvation and Transport Towards Dendrite-Free Li Metal Anodes. Chemical Engineering Journal, 2022, 450, 138112. (IF=16.744)

[21]        X. Li, X. Zhao, J. Wang, C. Chen, C. Hu*. A Multifunctional Separator Based on Dilithium Tetraaminophthalocyanine Self-Assembled on rGO with Improved Cathode and Anode Performance in Li–S Batteries. Carbon, 2023, 201, 307-317. (IF=11.307)

[22]        J. Ye, Z. Chen, Z. Zheng, Z. Fu, G. Gong, G. Xia, C. Hu*. Rationally Designed Hollow Carbon Nanospheres Decorated with S,P Co-Doped NiSe2 Nanoparticles for High-Performance Potassium-Ion and Lithium-Ion Batteries. Journal of Energy Chemistry, 2023, 78, 401-411. (IF=13.599)

4. 承担科研项目情况

(1)国家自然科学基金,青年项目,2021.01-2023.12,24万元,在研,主持;

(2)国家自然科学基金,面上项目,2023.01-2026.12,54万元,在研,主持;

(3)国家自然科学基金,国际(地区)合作与交流项目2022.06-2024.05,10万元,在研,主持;

(4)山东大学齐鲁青年学者人才项目,2018.3-2023.2,在研,主持;

(5)深圳市科技计划,基础研究面上项目,2022.10-2025.10,30万元,在研,主持;

(6)山东省自然科学基金,青年项目,2019.07-2022.06,15万元,已结题,主持;

(7)江苏省自然科学基金,青年项目,2018.07-2021.06,25万元已结题,主持;

(8)广东省基础与应用基础研究基金,青年项目,2020.01-2021.12,10万元,已结题,主持。

5. 其他

研究条件

储能金属材料实验室

课题组管理运行储能金属材料实验室,具备储能材料与器件研究所需的备样品制备、理论计算、电池组装、电化学性能测试等全部实验条件,已有实验设备包括:实验通风橱、高速离心机、冷冻干燥机、真空烘箱、鼓风烘箱、高温管试炉、氩气手套箱、纽扣电池组装设备、极片刮刀涂布机、软包极片模切机、超声极耳焊接机、软包电池真空注液热封机、CHI 760E电化学工作站、Neware 4000电池充放电测试系统、64核心128 G内存的计算工作站。


4BA50


山东大学公共技术平台

山东大学的多个公共技术平台提供先进的大型仪器设备。


招生信息

硕士研究生:学硕/专硕,每年招生2名;

博士研究生:学术型/专业型,每年招生1名。

课题组现有博士研究生4人、硕士研究生5人。团队研究方向面向“碳达峰、碳中和”等国家重大需求,鼓励引导研究生探索科技前沿,产出高质量研究成果。往届毕业生进入科研院所或华为等龙头企业从事科研工作。欢迎有探索精神、勤奋用功的优秀学子加入课题组,有意者请直接与我邮件联系(c.hu@sdu.edu.cn)。

联系方式

18769713860

联系地址

济南市经十路17923号山东大学千佛山校区主楼426

电子邮箱

c.hu@sdu.edu.cn


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