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石琨,男,合肥工业大学化学与化工学院讲师。

人物履历

2009年09月–2013年06月,四川大学化工学院,获(工学)学士学位;

2013年09月–2017年06月,四川大学化工学院,获(工学博士)学位(“3+2+3”培养计划),指导老师:褚良银教授;

2019年01月至今,合肥工业大学,化学与化工学院,讲师

研究方向

固态锂离子电池、新型无机/有机能源材料与器件

主讲本科生课程:《化工仪表及自动化》、《化工设备机械基础》、《化工原理课程设计》

研究成果

近年来,在国际期刊上发表高水平论文十余篇;发表国际学术会议论文二篇;申请发明专利三项。

科研项目

主持国家自然科学基金青年项目,项目号:21908037,27.1 万元,2020.01.01-2022.12.31

主持合肥工业大学学术新人提升计划B项目,项目号:JZ2021HGTB0119,20 万元,2021.04.01-2022.12.31

主持合肥工业大学博士专项科研项目,项目号:JZ2019HGBZ0147,2 万元,2019.05.01-2021.04.30

参与国家自然科学基金青年项目,项目号:21506127,2016.01.01-2018.12.12,已结题

获奖及专利情况

获奖

2021年 指导金鑫等五名本科生完成国家级大学生创新创业训练项目,通过考核验收

2019/2020年 连续两年指导金鑫等五名本科生参加中国“互联网+”大学生创新创业大赛,进入高校主赛道创意组

2017年 “四川大学优秀毕业生”

2016年 “国家奖学金”、“四川大学优秀博士”、《四川大学学生学报》“杰出编委”

2016/2015/2014年 四川大学膜科学与功能材料研究室“最具科研素质奖”/“最具创新精神奖”/“最勤奋刻苦奖”

2015年 美国化学工程师协会年会(AICHE) 会员

2013年 “四川大学优秀毕业生”(“3+2+3”本硕博免研,1/154)

2012年 “成达化工学业奖学金”、“全国大学生化工设计竞赛三等奖”

2011/2010年 连续两年“国家励志奖学金”

2011年 “四川大学优秀学生”

专利

[1]石琨,许争杰,杨则恒,张卫新,“基于环糊精超分子凝胶体系的可逆过热自保护有机电解液及其制备方法”,公开号:CN113707458A,专利申请日:2021.08.28,公开日:2021.11.26.

[2]石琨,许争杰,杨则恒,张卫新,“一种锂离子电池 PVDF 基准固态电解质及其制备方法”,公开号:CN113285119A,专利申请日:2021.05.14,公开日:2021.08.20.

[3]石琨,许争杰,张卫新,杨则恒,“商用隔膜基三明治结构聚合物复合固态电解质膜及其制备方法”,公开号:CN112909316A,专利申请日:2021.01.18,公开日:2021.06.04.

学术成果

著作论文

2019年后:

[1] Kun Shi*, Zhengjie Xu, Dawei Zheng, Zeheng Yang, Weixin Zhang*, Sandwich-like solid composite electrolytes employed as bifunctional separators for safe lithium metal batteries with excellent cycling performance. Journal of Materials Chemistry A, 2022, 10, 4660-4670.

[2] Kun Shi*, Zhengjie Xu, Mengqiu Huang, Lei Zou, Dawei Zheng, Zeheng Yang, Weixin Zhang*, Solid-state polymer electrolytes with polypropylene separator-reinforced sandwich structure for room-temperature lithium ion batteries. Journal of Membrane Science, 2021, 638, 119713.

[3] Mengqiu Huang, Kun Shi*, Zhengjie Xu, Yuping Lin, Miaomiao Jiang, Zeheng Yang, Guoqing Wu, Huayong Chen, Weixin Zhang*, Oriented catalytic oxidation induced fabrication of CuO/Mn3O4 hierarchical arrays as binder-free electrodes for high-performance supercapacitor. Advanced Materials Interfaces, 2021, 8, 2101076.

[4] Lei Zou, Kun Shi*, Zhengjie Xu, Zeheng Yang, Weixin Zhang*, Double-layer solid composite electrolytes enabling improved room-temperature cycling performance for high-voltage lithium metal batteries. ACS Omega (I.F. = 3.512), 2022, 7, 994-1002.

[5]Xiqing Luo#; Miaomiao Jiang#; Kun Shi*; Zhangxian Chen; Zeheng Yang*; Weixin Zhang*; Novel hierarchical yolk-shell α-Ni(OH)2/Mn2O3 microspheres as high specific capacitance electrode materials for supercapacitors, Frontiers of Chemical Science and Engineering, 2021, 2021, 15, 1322-1331.

[6] Junrui Fu#; Haijian Huang#; 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, 136347-136356.

[7] Shuai Cao#, Haijian Huang#, 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.

[8] Mengqiu Huang, Yuping Lin, Haijian Huang, Xiaoming Fan*, Kun Shi, Zeheng Yang, Weixin Zhang*, Nickel nanoparticles modified MnO nanosheet arrays for high-performance supercapacitor with long-lasting and sustainable capacitance increase, Electrochimica Acta, 2021, 383, 138353.

[9] Shuai Cao; Ning You; Li Wei; Cheng Huang; Xiaoming Fan; Kun Shi; Zeheng Yang*; Weixin Zhang*; CoP microscale prism-like superstructure arrays on Ni foam as an efficient bifunctional electrocatalyst for overall water splitting, Inorganic Chemistry, 2020, 59, 8522-8531.

[10] Xiaoyu Liu; Jun Cao; Cheng Huang; Zhangxian Chen; Xiaoming Fan; Kun Shi; Zeheng Yang*; Weixin Zhang*; Multi-shelled Ni6MnO8 hollow microspheres for high-performance supercapacitors, Materials Research Express, 2020, 7, 065502-065513.

[11] Kun Shi; Novel biocompatible thermoresponsive poly(N-vinyl caprolactam)/clay nanocomposite hydrogels with macroporous structure and improved mechanical characteristics, 5th International Conference on Sustainable Chemical Product and Process Engineering, China, Tianjin, 2019.6.30-2019.7.3

2019年前:

[1] Kun Shi; Zhuang Liu*; Chao Yang; Xiaoying Li; Yimin Sun; Yi Deng; Wei Wang; Xiaojie Ju; Rui Xie; Liangyin Chu*; Novel biocompatible thermoresponsive poly(N-vinyl caprolactam)/clay nanocomposite hydrogels with macroporous structure and improved mechanical characteristics, ACS Applied Materials & Interfaces, 2017, 9, 21979-21990.

[2] Kun Shi; Zhuang Liu*; Yunyan Wei; Wei Wang; Xiaojie Ju; Rui Xie; Liangyin Chu*; Near-infrared light-responsive poly(N-isopropylacrylamide)/graphene oxide nanocomposite hydrogels with ultrahigh tensibility, ACS Applied Materials & Interfaces, 2015, 7, 27289-27298.

[3] Xiaoying Li; Rui Xie*; Feng Luo; Zhihan Jia; Kun Shi; Xiaojie Ju; Wei Wang; Zhuang Liu; Liangyin Chu; CO2-responsive poly(N,N-dimethylaminoethyl methacrylate) hydrogels with fast responsive rate, Journal of the Taiwan Institute of Chemical Engineers, 2019, 94, 135-142.

[4] Chao Yang; Zhuang Liu*; Chen Chen; Kun Shi; Lei Zhang; Xiaojie Ju; Wei Wang; Rui Xie; Liangyin Chu*; Reduced graphene oxide-containing smart hydrogels with excellent electro-response and mechanical property for soft actuators, ACS Applied Materials & Interfaces, 2017, 9, 15758-15767.

[5] Yunyan Wei; Zhuang Liu; Xiaojie Ju*; Kun Shi; Rui Xie, Wei Wang; Zhengdong Cheng; Liangyin Chu*; Gamma-cyclodextrin-recognition responsive characteristics of poly(N-isopropylacrylamide)-based hydrogels with benzo-12-crown-4 units as signal receptors, 2017, Macromolecular Chemistry & Physics, 218, 1600386.

[6] Kun Shi; Near-infrared light-responsive poly(N-isopropylacrylamide)/graphene oxide nanocomposite hydrogels with high elasticity, 2015 AICHE Annual Meeting, USA, Salt Lake City, 2015.11.5-2015.11.13[1]

参考资料