广州大学化学化工学院化工系范浩森

huijing

基本情况:
范浩森，男，1982年11月生，江苏徐州人；博士，副教授，硕士生导师。
联系方式:
手机：18818539848
E-mail：hsfan@gzhu.edu.cn
教育经历:
2008.9～2012.6： 中国科学院化学研究所，高分子化学与物理，理学博士
2005.9～2008.3： 福州大学，化学化工学院，高分子化学与物理，理学硕士
2000.9～2004.7： 中北大学，材料学院，高分子化学与物理，工学学士
工作经历:
2017.9～至今： 广州大学，化学化工学院，副教授
2015.2～2017.7： Nanyang Technological University，Research Fellow
2014.7～2015.1： 中国科学院化学研究所，研究助理
2012.7～2014.6： 北京大学，博士后
科研方向:
过渡金属化合物、碳材料及导电高分子纳米材料的结构设计、调控及其杂化材料在能源存储及电催化领域中的应用。
发表论文：
23. Haosen Fan, Hong Yu, Yufei Zhang, Jing Guo, Zhen Wang, Hao Wang, Ning Zhao*, Zhengfei Dai, Yun, Zheng, Qingyu Yan* and Jian Xu*. 1D to 3D Hierarchical Iron Selenide Hollow Nanocubes Assembled from FeSe2@C core-shell nanorods for Advanced Sodium Ion Batteries. Energy Storage Materials. 2018, 10, 48-55.
22. Haosen Fan, Hong Yu, Yufei Zhang, Yun Zheng, Zhengfei Dai, Yubo Luo, Bing Li, Yun Zong and Qingyu Yan*. Fe Doped Ni3C nanodots in N-doped carbon nanosheets for efficient hydrogen-evolution and oxygen-evolution electrocatalyst. Angewandte Chemie International Edition. 2017. DOI: 10.1002/anie.201706610.
21. Yemao Lin, Zhaozheng Qiu, Dongzhi Li, Hai Yang, Shahid Ullah,Hailin Xin, Weidong Liao, BoYang, Haosen Fan*, Jian Xu and Caizhen Zhu*. NiS2@CoS2 nanocrystals encapsulated in N-doped carbon nanocubes for high performance Li+/Na+ batteries. Energy Storage Materials. 2017, DOI: 10.1016/j.ensm.2017.06.001
20. Hailin Xin, Zhaozheng Qiu, Dongzhi Li, Weidong Liao, Yemao Lin, Jing Jiang, Wei Cui, Chengdong Li, Haosen Fan* and Caizhen Zhu*.Coupling Mo2C@C Core-Shell Nanocrystals on 3D Graphene Hybrid Aerogel for High-Performance Lithium Ion Battery. Chemical Engineering Journal. 2017.
19. Haosen Fan, Hong Yu, Yufei Zhang, Jing Guo, Zhen Wang, Hao Wang, Xi Hao, Ning Zhao*, Hongbo Geng, Zhengfei Dai, Qingyu Yan* and Jian Xu*. From zinc-cyanide hybrid coordination polymers to hierarchical yolk-shell structures for high-performance and ultra-stable lithium-ion batteries. Nano Energy. 2017, 33, 168-176.
18. Hong Yu, Jun Yang, Haosen Fan*. Controllable Synthesis of Various V2O5 Micro-/Nanostructures as High performance Cathode for Lithium ion batteries. CrystEngComm. 2017, 19, 716-721.
17. Haosen Fan, Hong Yu, Xinglong Wu, Yu Zhang, Zhongzhen Luo, Huanwen Wang, Yuanyuan Guo, Srinivasan Madhavi* and Qingyu Yan*. Controllable Preparation of Square Nickel Chalcogenide (NiS and NiSe2) Nanoplates for Superior Li/Na ion Storage Properties. ACS Applied Materials & Interfaces. 2016, 8, 25261-25267.
16. Hong Yu, Haosen Fan*, Xinglong Wu, Huanwen Wang, Zhongzhen Luo, Huiteng Tan, Boluo Yadian, Yizhong Huang and Qingyu Yan*. Diffusion Induced Concave Co3O4@CoFe2O4 Hollow Heterostructures for High Performance Lithium Ion Battery Anode. Energy Storage Materials. 2016, 4, 145-153.
15. Pei Han, Bo Yang, Zhaozheng Qiu, Yajie You, Jing Jiang, Jianhong Liu, Jian Xu, Haosen Fan* and Caizhen Zhu*. Air-expansion induced hierarchically porous carbonaceous aerogels from biomass materials with superior lithium storage properties. RSC Advances. 2016, 6, 7591-7598.
14. Hong Yu, Haosen Fan*, Boluo Yadian, Huiteng Tan, Weiling Liu, Huey Hoon Hng, Yizhong Huang, and Qingyu Yan*. General Approach for MOF-Derived Porous Spinel AFe2O4 Hollow Structures and Their Superior Lithium Storage Properties. ACS Applied Materials & Interfaces. 2015, 7, 26751-26757.
13. Haosen Fan, Jiaxin Zheng, Jiangtao Hu, Yantao Su, Ning Zhao, Jian Xu,* Fusheng Liu, and Feng Pan*. Controllable Preparation of Hierarchical ZnO Nanocages and its Oxygen Vacancy through the Nanoscale Kirkendall Process. Particle & Particle Systems Characterization. 2015, 32, 771-778.
12. Haosen Fan, Hao Wang, Ning Zhao, Jian Xu* and Feng Pan*. 3D architecture of N-doped carbon nanorods grown on graphene with enhanced ionic transport and supercapacity. Scientific Reports. 2014, 4: 7426.
11. Haosen Fan, Hao Wang, Ning Zhao, Jian Xu* and Feng Pan*. 3D conductive network based free-standing PANI-RGO-MWNTs hybrid film for high-performance flexible supercapacitor. Journal of Materials Chemistry A. 2014, 2, 12340-12347.
10. Haosen Fan, Hao Wang, Jing Guo, Ning Zhao* and Jian Xu*. SDBS-assisted preparation of novel polyaniline planar-structure: Morphology, mechanism and hydrophobicity. Journal of Colloid and Interface Science. 2014, 414, 46-49.
9. Haosen Fan, Ning Zhao*, Hao Wang, Xiaofeng Li and Jian Xu*. Preparation of carpenterworm-like polyaniline-carbon nanotubes nanocomposites with enhanced electrochemical property. Materials Letters. 2013, 92, 157-160.
8. Haosen Fan, Hao Wang, Jing Guo, Ning Zhao* and Jian Xu*. Nanofibers-based nanoweb promise superhydrophobic polyaniline: From star-shaped to leaf-shaped structures (cover article). Journal of Colloid and Interface Science. 2013, 409, 255-258.
7. Haosen Fan, Ning Zhao*, Hao Wang, Xiaofeng Li and Jian Xu*. Preparation and electrochemical property of tremella-like polyaniline microspheres by a template-free method. Materials Letters. 2013, 92, 115-118.
6. Haosen Fan, Hao Wang, Ning Zhao*, Xiaoli Zhang and Jian Xu*. Hierarchical nanocomposite of polyaniline nanorods grown on the surface of carbon nanotubes for high-performance supercapacitor electrode. Journal of Materials Chemistry. 2012, 22, 2774-2780.
5. Haosen Fan, Hao Wang, Xiaolan Yu, Ning Zhao*, Xiaoli Zhang and Jian Xu*. Synthesis and electrochemical properties of various polyaniline micro nanostructures microdisks nanospheres and nanofibers. Materials Letters. 2012, 71, 70-73.
4. Haosen Fan, Ning Zhao*, Hao Wang, Longyu Hua, Xiaofeng Li and Jian Xu*. Noncovalent fabrication of uniform core-shell structured polyaniline/carbon nanotube nanocomposite for electrochemical supercapacitor. RSC Advances. 2012, 2, 11887-11891.
3. Haosen Fan, Ning Zhao*, Hao Wang, Xiaofeng Li and Jian Xu*. One step preparation of polyaniline micro/nano hierarchical structures with superhydrophobicity. Materials Letters. 2012, 78,42-45.
2. Haosen Fan, Xiaolan Yu, Yuhua Long, Xiaoyan Zhang, Haifan Xiang, Chunting Duan, Ning Zhao*, Xiaoli Zhang and Jian Xu*. Preparation of kapok-polyacrylonitrile core-shell composite microtube and its application as gold nanoparticles carrier. Applied Surface Science. 2012, 258, 2876-2882.
1. Xiaolan Yu#, Haosen Fan#, Hao Wang, Ning Zhao*, Xiaoli Zhang, Jian Xu*. Self-assembly hierarchical micro/nanostructures of leaf-like polyaniline with 1D nanorods on 2D foliage surface. Materials Letters. 2011, 65, 2724-2727.

nifeng

范浩森老师在顶级化学期刊《德国应用化学》上发表论文

日前，我院新引进百人计划教师范浩森在国际化学领域顶级期刊Angewandte Chemie International Edition（德国应用化学）在线发表了题为“Fe-Doped Ni3C Nanodots in N-Doped Carbon Nanosheets for Efficient Hydrogen-Evolution and Oxygen-Evolution Electrocatalysis”的最新研究成果（Angew. Chem. Int. Ed., 2017, 56, 12566）。Angewandte Chemie International Edition德文版创刊于1888年，1962年起出版英文国际版，当前影响因子为11.994，是化学领域最具影响力的期刊之一，在无机化学、有机化学、材料学、高分子科学等领域享有极高的声誉。这也是我校首次在该期刊上发表研究论文。

价格昂贵的贵金属铂类催化剂严重制约着电解水制氢工业化生产的实现。过渡金属碳化物由于其独特的结构作为电解水催化剂具有非常大的潜力，被认为是最有希望替代或减少铂使用的候选催化剂。虽然近年来碳化物催化剂在催化性能和稳定性方面都取得了一定的进展，但开发新型的金属碳化物催化剂仍面临挑战，比如碳化钴和碳化镍研究较少，尤其是自然界中含量较高的镍的碳化物的研究对碳化物的电催化研究有重要的研究意义。

范浩森老师在前期配位聚合物研究工作的基础上，与新加坡南洋理工大学Qingyu Yan教授合作，通过反应条件的控制，使得配位中心优先在二维取向配位，实现前驱体配位聚合物二维纳米片的优势生长。在碳化过程中利用配体的本征还原特性和原子级的配位/结合，大幅降低还原温度，在低温碳化条件下成功制备基于碳化镍纳米点的二维纳米材料，从而避免了高温碳化条件的粒子堆积，有利于提高其比表面积，暴露更多的活性位点，并通过异质原子掺杂等策略，显著提升其析氢和产氧的催化活性，研究发现：用铁对碳化镍进行掺杂，可显著降低体系的析氧反应过电位（275 mV, 电流密度10 mA·cm-2），较小的塔菲尔斜率 (62 mV·dec-1)，这对推动新型碳化物电解水催化材料的可控制备、掺杂催化性能调控、以及推广其在锂氧、锌空及燃料电池方面应用具有重要的研究意义。