| 1主持/参与项目 (1) 上海科委重点基础性研究项目《面向智能电网应用的低温燃料电池电极材料低成本化研究》 (2) 上海市科委《低成本磷酸铁锂动力电池产业化制备技术研究》 (3) 上海市教委《磁控定向排布高电压LiCo1-xMxPO4/C正极及其充放电结构相变研究》 (4) 教育部高等教育司2019年第一批产学合作协同育人项目《校级交互式VR创新教学实践平台建设》 (5) 教育部高等教育司2019年第二批产学合作协同育人项目《磷酸铁锂的可控合成与表征VR虚拟仿真实验》 (6) 上海高校示范性全英语课程建设项目《化工过程》 (7) 上海市教委《动力电池用LiFePO4正极材料的应用基础研究》 (8) 上海市教委《基于磷酸盐/聚合物复合材料的膜电极制备及电化学特性研究》 (9) 横向项目《三元锰基锂离子电池的环保新工艺开发与改性》 (10) 横向项目《磷酸铁锂生产线设计及其批量化生产技术》 (11) 横向项目《高电压LiCoPO4动力电池正极材料的开发与改性》 (12) 横向项目《高性能LiCoFePO4动力电池正极材料的开发与改性》 2获奖情况 2022年第八届中国国际互联网+大学生创新创业大赛上海赛区优秀组织奖(个人) 2022年第八届中国国际互联网+大学生创新创业大赛上海赛区优秀指导教师 2021年第七届中国国际互联网+大学生创新创业大赛上海赛区优秀组织奖(个人) 2021年第七届上海大学生创新创业训练计划成果展先进个人 2021年上海应用技术大学教学成果一等奖(《交叉共享创新—虚拟交互教育创新平台的构建与成效》) 2021年第二届曼恒杯线上VR 大赛优秀指导教师 2021年上海应用技术大学毕业设计(论文)优秀指导教教师 2020年上海应用技术大学本科教学突出贡献奖— 教改成就奖三等奖 2018年上海市教学成果奖团队二等奖——《产业转型升级中建筑材料人才培养模式的改革与实践》 2018年上海市产教合作教育成果三等奖《拓展产教融合途径,创新校企合作机制,应用型高校“卓越”人才培养模式的创新与实践》 2017年上海应用技术大学教学成果奖团队一等奖 2017上海应用技术大学年就业工作积极分子 2016年上海应用技术大学教改二等奖 2012、2015年上海应用技术学院个人年度考核优秀 2014年上海应用技术学院“忠诠-尔纯”三等奖 2013年上海市教学成果奖团队一等奖——《资源集成,全方位构建材料工程师培养体系》 2013、2014年连续两年大学生暑期社会实践优秀指导教师 2012年上海应用技术学院青年教师授课比赛优秀奖 3出版专著 (1) Aug. 2011 <PEM Fuel Cell Diagnostic Tools> CRC Press, Canada (2) 2005年《科学的魅力》(氢能与燃料电池)上海科学普及出版社 4专利 (1) 一种钠离子电池用三元层状正极材料的制备方法CN201810182437.X已授权20200811 (2) 一种锂离子电池用正极材料及其制备方法CN201710188178.7已授权20190524 (3) 磷酸铁锂的可调控合成与表征VR虚拟仿真软件V1.0 已授权 2020SR0582601 (4) 一种制备高容量锂离子电池正极极片的方法CN201710575343.4已授权20170714 (5) 一种高性能锶掺杂三元钠离子电池正极材料及其制备方法 CN115172709A 申请公开20221011 (6) 一种锶掺杂的三元锂离子电池正极材料及其制备方法和应用 CN113224287A 申请公开20210806 (7) 一种镉掺杂锂离子电池三元正极材料及其改性方法 CN112510191A 申请公开20210316 (8) 一种铌掺杂镍钴铝酸锂正极材料的制备方法 CN111653765A 申请公开20200911 (9) 一种钇离子改性的锂离子电池三元正极材料及其制备方法CN111342039A申请公开20200626 (10) 用钒离子和钠离子共同取代的三元正极材料及其制备方法CN111193016A申请公开20200522 (11) 一种镁掺杂的钠离子电池三元正极材料及其制备方法CN110416521A申请公开20191105 (12) 一种铷掺杂的锂离子电池三元正极材料及 其制备方法CN109817919A申请公开20190528 (13) 一种锂离子电池用钒取代的三元正极材料及其制备方法CN109841827A申请公开20190604 (14) 一种钠离子电池用的镁取代磷酸钒钠/碳复合正极材料及其制备方法CN108511704A申请公开20180907 (15) 一种片状锂离子电池正极材料磷酸钴锂的制备方法CN108448111A申请公开20180824 (16) 用于锂离子电池正极材料的硅酸锰锂材料及制备方法CN107464928A申请公开20171212 (17) 一种黄色长余辉发光材料及其制备方法CN104877678A申请公开20150912 (18) 一种绿色长余辉发光材料及其制备方法CN104927851A申请公开20150823 5发表论文 [1] Weidong Li, Qiuyi Chen, Dongyun Zhang*, Chen Fang, Song Nian, Wenxu Wang, Cong Xu, Chengkang Chang*. High Stability of Mo-F Dual-Doped O3-type NaNi1/3Fe1/3Mn1/3O2 Cathode Material for Sodium-ion Battery. Materials Today Communications, 2022(32): 103839. doi.org/10.1016/j.mtcomm.2022.103839 [2] Runze Li, Hui Cao, Huahui Li, Dongyun Zhang*, Chengkang Chang* Polychromatic luminescence of LiSr4(BO3)3: Eu2+, Dy3+ persistent phosphors, CeramicsInternational, 2022, 48(14): 20546-20554. [3] Daichao Gao, Jiaxin Yang, Dongyun Zhang*, Chengkang Chang*, An effective strategy to enhance the electrochemical performance of LiNi0.6Mn0.2Co0.2O2: Optimizing a Li diffusion pathway via magnetic alignment of single-crystal cathode material under an ordinary 0.4-T magnetic field, Ceramics International, 2022, 48(21): 31598-31605. [4] Xiaowen Wan, Wen Che, Dongyun Zhang, Chengkang Chang*, Improved electrochemical performance of Mn-based Li-rich cathode Li1.4Mn0.61Ni0.18Co0.18Al0.03O2.4 synthesized in oxygen atmosphere, Journal of Alloys and Compounds, 875 (2021) 159947. [5] Sanchao Liu, Huihui He, Dongyun Zhang, Chengkang Chang*, Cr-doped LiCoMnO4 cathode with high phase purity andpromoted electrochemical performance, International Journal of Energy Research, 2021, 45(11): 16538-16550. [6] Huihui He, Sanchao Liu, Dongyun Zhang, Chengkang Chang*, Na and Nb co-doped LiNi0.85Co0.15Al0.05O2 cathode materials for enhanced electrochemical performance upon 4.5 V application, Ceramics International, 47 (2021) 15260-15266. [7] Wen Che, Xiaowen Wan, Dongyun Zhang, Chengkang Chang*, Fabrication and electrochemical characterization of a novel spinel Li2Ni0.5Mn1.5O4 cathode coated with conductive glass for Lithium-ions batteries, Advanced Powder Technology, 32 (2021) 1802-1809. [8] Wen Che, Xiaowen Wan, Dongyun Zhang, Chengkang Chang*, Stabilized Performance of LiNi0.90Co0.07Al0.03O2 Cathodes via Zr4+ Doping upon 4.5 V Application due to the Suppression of H2-H3 Phase Transitions, ACS Sustainable Chemistry & Engineering, 2021, 9, 5536-5545. [9] Xiaowen Wan, Daojin Hang, Xiaojing Zhu, Wen Che, Dongyun Zhang, Chengkang Chang*, Improved Electrochemical Performance of W6+-Doped Li-Rich Cathode Li1.17Mn0.51Ni0.15Co0.15Al0.025O2: Combined Results from the Reduced Residual Li2MnO3 Phase and Promoted Li Intercalation, ACS Sustainable Chemistry & Engineering, 2021, 9, 17221-17231. [10] Huihui He, Jian Dong, Dongyun Zhang, Daojin Hang, Xiaojing Zhu, Chengkang Chang*, Feasible synthesis of NCM811 cathodes with controllable Li/Ni cationic mixing for enhanced electrochemical performance via a nano grinding assisted solid-state approach, International Journal of Energy Research, 2021, 45(5): 7108-7119. [11] Xiaowen Wan, Wen Che, Dongyun Zhang*, Chengkang Chang*, Improved electrochemical behavior of Li rich cathode Li1.4Mn0.61Ni0.18Co0.18Al0.03O2.4 via Y2O3 surface coating,Materials Characterization, 169 (2020) 110602. [12] Mengmeng Wang, Yueming Tao, Dongyun Zhang*, Guanghan Sun, Ping Feng, Chengkang Chang, High rate and cyclic performance of Na3-2xMgxV2(PO4)3/C cathode for sodium-ion batteries, J Mater Sci-Mater El, 31 (2020) 18360-18369 [13] Xiaowen Wan, Wen Che, Dongyun Zhang*, Chengkang Chang, Improved electrochemical behavior of Li rich cathode Li1.4Mn0.61Ni0.18Co0.18Al0.03O2.4 via Y2O3 surface coating, Mater Charact, 169 (2020) 110602. [14] Hui Zhu, Yingjun Xiao, Jian Dong, Dongyun Zhang, Chengkang Chang*, New composite Li1.4Mn0.61Ni0.18Co0.18Al0.03O2.4 and LiNi0.5Mn1.5O3.9F0.1 cathode material with higher specific capacity and better capacity retention, Ionics, 2020, 26(8): 3749-3760. [15] Huihui He, Jian Dong, Dongyun Zhang, Chengkang Chang*, Effect of Nb doping on the behavior of NCA cathode: Enhanced electrochemical performances from improved lattice stability towards 4.5V application, Ceramics International, 46 (2020) 24564-24574. 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[23] Jie Chen, Dongyun Zhang*, Jin Qiao, Chengkang Chang, High performance of LiMn1-xFexPO4/C (0≤x≤0.5) nanoparticles synthesized by microwave-assisted solvothermal method, Ionics, 24 (2018) 689-696 [24] Dongyun Zhang*, Jin Qiao, Xiaoxiao Dong, Bingyan Xu, Runfa Li, Chengkang Chang*,Graphene enhanced LiFeBO3/C composites as cathodes for Li-ion batteries, International Journal of Electrochemical Science, 13(2018) 1744-1753. [25] Dongyun Zhang*, Ping Feng, Bingyan Xu, Zhen Li, Jin Qiao, Jiang Zhou, Chengkang Chang, High rate performance of Na3V2-xCux(PO4)3/C cathodes for sodium ion batteries, Journal of The Electrochemical Society, 164(14) (2017) A3563-3569. [26] Nan Li, Yu-Shi He, Xiaoping Wang, Weimin Zhang, Zi-Feng Ma, Dongyun Zhang*, Incorporation of rubidium cations into Li1.2Mn0.54Co0.13Ni0.13O2 layered oxide cathodes for improved cycling stability, Electrochimica Acta, 231 (2017) 363-370 [27] Li Guan, Peng Xiao, Tingjian Lv, Dongyun Zhang*, Chengkang Chang, Improved Electrochemical Performance of RbxLi1.27-xCr0.2Mn0.53O2 Cathode Materials via Incorporation of Rubidium Cations into the Original Li Sites, Journal of The Electrochemical Society, 164,13, (2017) A1-A9 [28] X.X. Dong, C.Y. Huang, Q. Jin, J. Zhou, P. Feng, F.Y. Shi and D. Y. Zhang*, Enhancing the rate performance of spherical LiFeBO3/C via Cr doping, RSC Advances, 7 (2017) 33745-33750 [29] Qian Guo, Chengkang Chang*, Dongyun Zhang*, Kejun Huang, Electrochemical performance of Cox/Li3Ti4Co1-xCrO12 as anode materials for lithium ion batteries, Journal of Alloys and Compounds, 692 (2017) 257-264 [30] Bowen Zhang, Mingming Shi, Dongyun Zhang*, Yunyun Guo, Chengkang Chang, Weijie Song, The comparison: photoluminescence and afterglow behavior in CaSnO3: Dy3+ and Ca2SnO4: Dy3+ phosphors, Journal of Materials Science: Materials in Electronics,28 (2017) 16, 11624-11630 [31] Xinyu Li, Dongyun Zhang*, Yue Chen, Chengkang Chang, Preparation and characterization of a green emitting Li2Ca0.4Sr0.6SiO4:Tb3+ phosphor with afterglow behavior, Ceramics International, 43 (2017) 1677-1681 [32] Xinyu Li, Dongyun Zhang*, Yue Chen, Chengkang Chang, Preparation and characterization of orange-yellow emitting Li2Ca0.4Sr0.6SiO4:Eu2+, Dy3+ phosphor with afterglow behavior, Journal of Luminescence, 183 (2017) 48-52 [33] Yuanyuan Cai, Dongyun Zhang*, Chengkang Chang, Zhaomin Sheng, Kejun Huang, Electrochemical comparison of LiFe0.4Mn0.595Cr0.005PO4/C and LiMnPO4/C cathode materials, Ionics, 22 (2016) 1011-1019 [34] Dongyun Zhang*, Mingming Shi, Yiwen Sun, Yunyun Guo, Chengkang Chang, Long afterglow property of Er3+ doped Ca2SnO4 phosphor, Journal of Alloys and Compounds, 667 (2016) 235-239 [35] Qian Guo, Dongyun Zhang*, Chengkang Chang, Zhaomin Sheng, Kejun Huang, Facile synthesis of Ni/Li3Ti4NiCrO12 composites with enhanced cycle performance as lithium ion battery anode, Materials Letters, 169 (2016) 13-16 [36] 孟方礼,章冬云*,常程康,徐家跃,A.S. Kamzin,基于铁粉还原的磷酸铁锂/C合成路径及其电化学性能研究,无机材料学报,31(2016)8:802-806 [37] 陈雪平,章冬云*,高铁言,温旭,陈茜,常程康,钛酸锂/石墨烯复合电极材料电化学性能,上海应用技术学院学报(自然科学版),16(2016)2:36-40 [38] Yunwei Shi, Dongyun Zhang*, Chengkang Chang, Kejun Huang, Rudolf Holze, Enhanced electrochemical performance of oxygen-deficient Li4Ti5O12-x anode material induced by graphene oxide, Journal of Alloys and Compounds, 639 (2015) 274-279 [39] Yongqiang Wang, Dongyun Zhang*, Chengkang Chang, Lin Deng, Kejun Huang, Low-cost synthesis of nanocrystalline and spherical LiFePO4/C composite, Materials Research Innovations, 5 (2015) 1130-1134 [40] Mingming Shi, Dongyun Zhang*, Chengkang Chang, Tunable emission and concentration quenching of Tb3+ in lithium magnesium phosphate, J. 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