个人简介
戚继球,男,1983年生,江苏沭阳人,中共党员,副教授。2013年获哈尔滨工业大学博士学位,同年7月到中国矿业大学参加工作。主持国家自然基金青年基金和面上项目各1项,江苏省科技支撑项目1项以及中央高校业务费项目4项。参编专著一部,2018年获得江苏机械工程协会一等奖。发表SCI文章70余篇,其中其中以第一作者或通信作者在JournalofPowerSources, Advanced Materials Interfaces等期刊上发表论文近40篇,两篇论文为ESI高被引论文,申请国家发明专利14项,授权发明专利3项,培养研究生13人。
讲授五门本科生课程和一门研究生课程,主要有材料工程基础,材料加工设备基础,出版教材一部,主持教改项目4项,发表教学论文1篇。指导国家级大学生创新训练项目2项,指导本科生发表SCI学术论文10余篇,指导本科生多次参与中国大学生铸造工艺设计大赛和大学生材料创新大赛,获得多项三等奖。
教育/工作经历
2003/09 - 2007/07,江苏科技大学,材料成型及控制工程,学士;
2007/09 - 2009/07,哈尔滨工业大学,材料加工工程,硕士;
2009/09 - 2013/07,哈尔滨工业大学,材料加工工程,博士;
2013/07 -2019/12,中国矿业大学,材料与物理学院,讲师
2020/01 –至今,中国矿业大学,材料与物理学院,副教授
代表性教学和科研项目
1 基于三元Ti-Cu-X非晶合金制备超级电容器用纳米多孔复合材料及微观机理研究. 国家自然科学基金面上项目, 2020.01-2023.12 主持,进行中;
2 钛合金及其复合材料氧化产物多尺度结构调控及超级电容性能. 国家自然科学基金青年基金, 2017.01-2019.12. 主持,进行中;
3 新型高质量Al-Ti-C中间合金的制备及关键技术研究. 江苏省产学研联合创新资金前瞻性联合研究项目, 2016.07-2018.06. 主持,结题;
4 石墨烯表面可控构筑复合过渡金属硫化物及超电容行为研究. 校基本科研业务费项目, 2017.01-2019.12. 主持,结题;
5 超细晶高强韧多相双尺度颗粒增强钛基复合材料的研制,国防科技预研基金,2018.01-2020.12. 主持,进行中;
6 校研究生院教改项目,ESI背景下材料学科研究生培养新模式的探索,2015.05-2016.10,结题
7 校教务部教改项目,《材料加工设备基础》网络在线课程建设与研究,2017.6-2018.5,结题
8 校研究生院教改项目,多学科交叉融合培养复合型创新研究生的模式探索——以材料学科为例,2018.5-2020.1,进行中。
授权的发明专利
1 戚继球, 刘晓锋学, 隋艳伟, 委福祥, 孟庆坤,一种无Al3Ti相Al-Ti-C中间合金的制备方法,国家发明专利,ZL201810628700.3
2 戚继球, 隋艳伟, 常远, 何业增, 委福祥, 孟庆坤,一种TiC/Ti复合材料铸件中TiC形貌的控制方法,国家发明专利,ZL201510606507.6
3 戚继球, 隋艳伟, 常远, 何业增, 委福祥, 孟庆坤,一种微纳双尺度TiC颗粒增强铝基复合材料的制备方法,国家发明专利,ZL201510605404.8
近期论文
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代表性SCI论文
1 Jiqiu Qi,Yuwei Chen,Qian Li,Yanwei Sui,Yezeng He,Qingkun Meng,Fuxiang Wei,Yaojian Ren,Jinlong Liu.Hierarchical NiCo layered double hydroxide on reduced graphene oxide-coated commercial conductive textile for flexible high-performance asymmetric supercapacitors.Journal of Power Sources 445(2020)227342
2 J.Q.Qi,X.F.Liu,Y.W.Sui,Y.Z.He,Y.J.Ren,Q.K.Meng,F.X.Wei,X.P.Zhang,High performance fiber-shaped all-solid-state symmetric supercapacitor based on mesoporous CuCo2S4 nanosheets,J Mater Sci-Mater El,30(2019)667-676.
3 J.Q.Qi,D.R.Chen,W.Wang,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,Y.J.Ren,J.L.Liu,Y.X.Jin,Facile synthesis of N-doped activated carbon derived from cotton and CuCo2O4 nanoneedle arrays electrodes for all-solid-state asymmetric supercapacitor,J Mater Sci-Mater El,30(2019)9877-9887.
4 J.Q.Qi,J.W.Mao,A.B.Zhang,L.Y.Jiang,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,X.P.Zhang,Facile synthesis of mesoporous ZnCo2O4 nanosheet arrays grown on rGO as binder-free electrode for high-performance asymmetric supercapacitor,J Mater Sci,53(2018)16074-16085.
5 Jiqiu Qi,Yuan Chang,Yanwei Sui,Yezeng He,Qingkun Meng,FuxiangWei,Yaojian Ren,Yunxue Jin.Facile synthesis of Ag-decorated Ni3S2 nanosheets with 3D bush structure grown on rGO and its application as positive electrode material in asymmetric supercapacitor.Advanced Materials Interfaces,2018,1700985
6 Jiqiu Qi,Yuan Chang,Yanwei Sui,Yezeng He,Qingkun Meng,Fuxiang Wei,Yulong Zhao,Yunxue Jin.Facile construction of 3D reduced graphene oxide-wrapped Ni3S2 nanoparticles on Ni foam for high-performance asymmetric supercapacitor electrode,Particle&Particle Systems Characterization,2017,1700196
7 J.Q.Qi,Y.Chang,Y.Z.He,Y.W.Sui,F.X.Wei,Q.K.Meng and Z.J.Wei:Effect of Zr,Mo and TiC on microstructure and high-temperature tensile strength of titanium matrix composites Materials&Design.99,421(2016).
8 J.Q.Qi,Y.W.Sui,Y.Chang,Y.Z.He,F.X.Wei,Q.K.Meng and Z.J.Wei:Microstructural characterization and mechanical properties of TiC/near-αTi composite obtained at slow cooling rate.Materials Characterization.118,263(2016).
9 J.Q.Qi,J.Lu,Y.W.Sui,Y.Z.He,F.X.Wei and Q.K.Meng:TiO2/Fe2O3 composite obtained through oxidation of Ti-15Fe alloy foil for high-performance supercapacitor electrode Materials Letters.184,34(2016)
10 J.Q.Qi,S.L.Li,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,Y.J.Ren,Y.X.Jin,Solvent dependence on structure and supercapacitor performance of mesoporous NiCo2O4 grown on nickel foam.Materials Research Express 2017.4.106302
11 J.Q.Qi,Y.W.Sui,Y.Chang,Y.Z.He,F.X.Wei,Q.K.Meng and Z.J.Wei:Superior ductility in as-cast TiC/near-αTi composite obtained by three-step heat treatment Vacuum.126,1(2016).
12 J.Q.Qi,J.Lu,Y.Z.H,Y.W.Sui,Y.Z.He,F.X.Wei,Q.K.Meng and Z.J.Wei:Microstructural evolution of TiC/near-αTi composite during high-temperature tensile test.Journal of Materials Research.2016,31:3428-3436
13 Q.S.Liu,R.Hu,J.Q.Qi*,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,Y.J.Ren,Facile synthesis of hierarchical NiCoP nanowires@NiCoP nanosheets core-shell nanoarrays for high-performance asymmetrical supercapacitor,J Mater Sci,55(2020)1157-1169.
14 Q.Li,R.Hu,J.Q.Qi*,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,Y.J.Ren,Y.L.Zhao,Facile synthesis of mesoporous CuCo2O4 nanorods@MnO2 with core-shell structure grown on RGO for high-performance supercapacitor,Mater Lett,249(2019)151-154.
15 X.F.Liu,L.Y.Jiang,J.Q.Qi*,Y.W.Sui,Y.Z.He,Q.K.Meng,F.X.Wei,X.P.Zhang,Y.X.Jin,Preparation of TiO2/Fe2O3/Al2O3 nanocomposite on rapidly solidified Ti-10Fe-6Al alloy ribbons and their application in supercapacitors,J Mater Sci-Mater El,29(2018)9275-9282.
16 L.Y.Jiang,Y.W.Sui,J.Q.Qi*,Y.Chang,Y.Z.He,Q.K.Meng,F.X.Wei,Z.Sun,Y.X.Jin,Hierarchical Ni-Co layered double hydroxide nanosheets on functionalized 3D-RGO films for high energy density asymmetric supercapacitor,Appl Surf Sci,426(2017)148-159.
17 L.Y.Jiang,Y.W.Sui,J.Q.Qi*,Y.Chang,Y.Z.He,Q.K.Meng,F.X.Wei,Z.Sun,Y.X.Jin,Structure Dependence of Fe-Co Hydroxides on Fe/Co Ratio and Their Application for Supercapacitors,Part Part Syst Char,34(2017).
18 Y.Chang,Y.W.Sui,J.Q.Qi*,L.Y.Jiang,Y.Z.He,F.X.Wei,Q.K.Meng,Y.X.Jin,Facile synthesis of Ni3S2 and Co9S8 double-size nanoparticles decorated on rGO for high-performance supercapacitor electrode materials,Electrochim Acta,226(2017)69-78.