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季山团队

2018年10月22日 22:53

 

 

团队名称:新能源纳米材料与应用

联系方式jissshan@126.com15024355548

团队介绍

    季山博士2017年3月离开英国伦敦大学学院化学工程系加入了嘉兴学院380555金钥匙心水论坛,并开始组建新能源纳米材料与应用研究团队。目前团队正在建设中。本团队负责人长期从事与新能源有关的研发,工作涉及领域有天然气制油、洁净煤技术、锂电池开发与应用和燃料电池系统。在英国伦敦大学学院的电化学创新实验室(Electrochemical Innovation Lab,英国最大的电化学实验室)工作期间,从事电路板为双极板的新型燃料电池研究,该项目在移动设备,如无人机等有广泛的应用前景。2017年3月加入嘉兴学院前,季山博士一共发表SCI论文一百零三篇,国内外专利二十余项。

主要研究方向

1.二氧化碳制甲醇催化剂体系:二氧化碳制甲醇是“甲醇经济”中最重要的反应。研究方向一是基于金属氧化物的催化剂,研究其催化剂活性与催化剂成分形貌之间的关系,探索催化机理;二是以新型的碳材料为基础,探索电催化二氧化碳转化的反应。

2.储能和能量转化的纳米功能材料:通过控制电极材料的纳米形貌,合成廉价的高性能纳米金属氧化物并应用于超级电容器中;以新型高比表面碳材料为基础,在其上负载贵金属催化剂作为燃料电池用电催化剂,并研究形貌与催化性能之间的关系。

3.新型燃料电池在无人机中的应用:传统燃料电池是通过石墨双极板来进行串联的,而石墨板价格较贵、重量大而且易碎,造成石墨板组装的燃料电池价格昂贵且较重,制约了它的商业化。本研究方向,开发了一种新型燃料电池技术,它利用价格比较低廉的传统电路板经过特殊的防腐处理来代替石墨板,从而大大减轻了燃料电池电堆的重量和价格,非常适合应用于无人机中。

代表性成果(SCI论文与专利):

1. Ding J, Ji S*, Wang H, Key J, Dan JLB, Wang R*,Nano-engineered intrapores in nanoparticles of PtNi networks for increased oxygen reduction reaction activity.Journal of Power Sources, 2018,374:48-54

2. Chen F, Wang H, Ji S*, Linkov V, Wang R*,Core-shell structured Ni3S2@Co(OH)2 nano-wires grown on Ni foam as binder-free electrode for asymmetric supercapacitors.Chemical Engineering Journal, 2018,345:48-57

3.Abouelamaiem DI, He G, Parkin I, Neville TP, Jorge AB, Ji S, Wang R, Titirici M-M, Shearing PR*, Brett DJL*,Synergistic relationship between the three-dimensional nanostructure and electrochemical performance in biocarbon supercapacitor electrode materials.Sustainable Energy & Fuels, 2018,2 (4):772-785

4.Chen Y, Wang H, Ji S*, Lv W, Wang R*,Harvesting a 3D N-Doped Carbon Network from Waste Bean Dregs by Ionothermal Carbonization as an Electrocatalyst for an Oxygen Reduction Reaction.Materials, 2017,10 (12):1366

5.Ding J, Ji S, Wang H, Pollet BG, Wang R*, Ding J, Ji S*, Wang H, Pollet BG, Wang R,Tailoring nanopores within nanoparticles of PtCo networks as catalysts for methanol oxidation reaction.Electrochimica Acta, 2017,255

6. Li S, Xu R, Wang H, Brett DJL, Ji S*, Pollet BG, Wang R*,Ultra-high surface area and mesoporous N-doped carbon derived from sheep bones with high electrocatalytic performance toward the oxygen reduction reaction.J Solid State Electrochem, 2017:1-8

7. Liu Q, J Ji S*, Yang J, Wang H, Pollet B, Wang R*,Enhanced Cycleability of Amorphous MnO2 by Covering on α-MnO2 Needles in an Electrochemical Capacitor.Materials, 2017,10 (9):988

8.Liu Q, Yang J, Wang R*, Wang H, Ji S*,Manganese dioxide core–shell nanostructure to achieve excellent cycling stability for asymmetric supercapacitor applications.Rsc Advances, 2017,7 (53):33635-33641

9. Ma X, Feng S, Ji S*,Nitrogen-doped Carbon with Hierarchical Porous Structure for Electrocatalysis of Oxygen Reduction Reactio.International Journal of Electrochemical Science, 2017,12:7869-7876

10. Ma X, Ren Q, Wang H, Ji S*,Mesoporous and amorphous NiCoBP alloys with high specific capacitance for supercapacitors.Ionics, 2017, (17):1-9

11. Ma X, Zhao Q, Wang H, Ji S*,Controlled Synthesis of CuO from needle to flower-like Particle Morphologies for Highly Sensitive Glucose Detection.International Journal of Electrochemical Science, 2017,12:8217-8226

12. Wang H, Ren Q, Brett DJL, He G, Wang R*, Key J, Ji S*,Double-shelled tremella-like NiO@Co3O4@MnO2 as a high-performance cathode material for alkaline supercapacitors.Journal of Power Sources, 2017,343:76-82

13. Wang H, Yan J, Wang R*, Li S, Brett DJL, Key J, Ji S*,Toward high practical capacitance of Ni(OH)2 using highly conductive CoB nanochain supports.Journal of Materials Chemistry A, 2017,5 (1):92-96

14.Shan Ji, Vladimir Linkov etc, Supported Catalysts, EP2446494 A0

15.Shan Ji, Vladimir Linkov etc, Method for producing a carbon composite material CA2757600

 

 


 


嘉兴学院380555金钥匙心水论坛  地址:浙江省嘉兴市嘉杭路118号
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