中国科学院大学硕士研究生导师信息：崔子立

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　　中国科学院大学硕士研究生导师信息：崔子立

　　崔子立 男 硕导 中国科学院青岛生物能源与过程研究所

　　电子邮件： cuizl@qibebt.ac.cn

　　通信地址： 青岛市崂山区松岭路189号

　　邮政编码：

　　招生信息

　　招生专业

　　080502-材料学

　　招生方向

　　新型锂电池用锂盐及镁盐的开发

　　教育背景

　　2011-09--2014-06 兰州大学 博士

　　工作经历

　　工作简历

　　2020-01~2020-06,中国科学院青岛生物能源与过程研究所, 副研究员

　　2017-11~2020-01,中国科学院青岛生物能源与过程研究所, 助理研究员

　　2014-07~2017-11,中国科学院青岛生物能源与过程研究所, 博士后

　　专利与奖励

　　专利成果

　　[1] 崔光磊, 崔子立, 乔立鑫, 于莎, 刘志宏. 氟代烷氧基三氟硼酸锂盐及其制备方法和应用. CN: CN106946925B, 2020-03-17.

　　[2] 崔光磊, 崔子立, 乔立鑫, 于莎, 崔艳艳, 刘志宏. 一种固态锂电池聚合物电解质及制备和应用. CN: CN107069084B, 2020-01-14.

　　[3] 崔光磊, 周倩, 崔子立, 董杉木, 韩鹏献, 徐红霞. 一种含硫聚合物电解质及其构成的固态锂电池及其制备. CN: CN108232288B, 2019-12-24.

　　[4] 崔光磊, 张忠华, 崔子立, 许慧敏, 乔立鑫, 王晓刚, 董杉木, 刘志宏. 非水电解液、非水电解液的镁二次电池. CN: CN106450448B, 2019-08-02.

　　[5] 崔光磊, 刘志宏, 崔艳艳, 柴敬超, 崔子立, 王庆富, 刘海胜, 姚建华. 一种由环氧化合物原位开环聚合制备全固态聚合物电解质的制备方法以及在全固态锂电池中应用. CN: CN105914405B, 2019-06-25.

　　[6] 崔光磊, 许高洁, 上官雪慧, 崔子立, 王青磊, 黄苏琪. 一种用于锂电池的宽温度窗口双主盐电解液. CN: CN109802181A, 2019-05-24.

　　[7] 崔光磊, 柴敬超, 刘志宏, 崔子立, 王庆富, 张建军, 姚建华, 刘海胜. 一种包含界面稳定聚合物材料的锂电池电极制备方法及在固态锂电池中的应用. 中国: CN105702919B, 2018-10-02.

　　[8] 崔光磊, 柴敬超, 刘志宏, 崔子立, 王庆富, 张建军, 姚建华, 刘海胜. 一种聚碳酸亚乙烯酯基锂离子电池聚合物电解质及其制备方法和应用. 中国: CN105826603B, 2018-06-19.

　　出版信息

　　发表论文

　　[1] 崔子立. Highly Fluorinated Al-Centered Lithium Salt Boosting the Interfacial Compatibility of LiMetal Batteries. ACS Energy Lett.[J]. 2022, [2] Li, Longshan, Wang, Dingming, Xu, Gaojie, Zhou, Qian, Ma, Jun, Zhang, Jianjun, Du, Aobing, Cui, Zili, Zhou, Xinhong, Cui, Guanglei. Recent progress on electrolyte functional additives for protection of nickel-rich layered oxide cathode materials. JOURNAL OF ENERGY CHEMISTRYnull. 2022, 65: 280-292, http://dx.doi.org/10.1016/j.jechem.2021.05.049.

　　[3] Tang, Kun, Du, Aobing, Dong, Shanmu, Cui, Zili, Liu, Xin, Lu, Chenglong, Zhao, Jingwen, Zhou, Xinhong, Cui, Guanglei. A Stable Solid Electrolyte Interphase for Magnesium Metal Anode Evolved from a Bulky Anion Lithium Salt. ADVANCED MATERIALS[J]. 2020, 32(6): https://www.webofscience.com/wos/woscc/full-record/WOS:000503099800001.

　　[4] Wang, Qinglei, Liu, Xiaochen, Cui, Zili, Shangguan, Xuehui, Zhang, Huanrui, Zhang, Jianjun, Tang, Kun, Li, Longshan, Zhou, Xinhong, Cui, Guanglei. A fluorinated polycarbonate based all solid state polymer electrolyte for lithium metal batteries. ELECTROCHIMICA ACTA[J]. 2020, 337: http://dx.doi.org/10.1016/j.electacta.2020.135843.

　　[5] Wang, Qinglei, Cui, Zili, Zhou, Qian, Shangguan, Xuehui, Du, Xiaofan, Dong, Shanmu, Qiao, Lixin, Huang, Suqi, Liu, Xiaochen, Tang, Kun, Zhou, Xinhong, Cui, Guanglei. A supramolecular interaction strategy enabling high-performance all solid state electrolyte of lithium metal batteries. ENERGY STORAGE MATERIALS[J]. 2020, 25: 756-763, http://dx.doi.org/10.1016/j.ensm.2019.09.010.

　　[6] Du, Aobing, Zhao, Yimin, Zhang, Zhonghua, Dong, Shanmu, Cui, Zili, Tang, Kun, Lu, Chenglong, Han, Pengxian, Zhou, Xinhong, Cui, Guanglei. Selenium sulfide cathode with copper foam interlayer for promising magnesium electrochemistry. ENERGY STORAGE MATERIALS[J]. 2020, 26: 23-31, http://dx.doi.org/10.1016/j.ensm.2019.12.030.

　　[7] Zhou, Qian, Dong, Shanmu, Lv, Zhaolin, Xu, Gaojie, Huang, Lang, Wang, Qinglei, Cui, Zili, Cui, Guanglei. A Temperature-Responsive Electrolyte Endowing Superior Safety Characteristic of Lithium Metal Batteries. ADVANCED ENERGY MATERIALS[J]. 2020, 10(6): https://www.webofscience.com/wos/woscc/full-record/WOS:000503781600001.

　　[8] Tang, Kun, Du, Aobing, Du, Xiaofan, Dong, Shanmu, Lu, Chenglong, Cui, Zili, Li, Longshan, Ding, Guoliang, Chen, Fengxian, Zhou, Xinhong, Cui, Guanglei. A Novel Regulation Strategy of Solid Electrolyte Interphase Based on Anion-Solvent Coordination for Magnesium Metal Anode. SMALL[J]. 2020, 16(49): https://www.webofscience.com/wos/woscc/full-record/WOS:000589824300001.

　　[9] Yang, Wuhai, Du, Xiaofan, Zhao, Jingwen, Chen, Zheng, Li, Jiajia, Xie, Jian, Zhang, Yaojian, Cui, Zili, Kong, Qingyu, Zhao, Zhiming, Wang, Cunguo, Zhang, Qichun, Cui, Guanglei. Hydrated Eutectic Electrolytes with Ligand-Oriented Solvation Shells for Long-Cycling Zinc-Organic Batteries. JOULE[J]. 2020, 4(7): 1557-1574, http://dx.doi.org/10.1016/j.joule.2020.05.018.

　　[10] Wang, Chen, Wang, Tao, Wang, Longlong, Hu, Zhenglin, Cui, Zili, Li, Jiedong, Dong, Shanmu, Zhou, Xinhong, Cui, Guanglei. Differentiated Lithium Salt Design for Multilayered PEO Electrolyte Enables a High-Voltage Solid-State Lithium Metal Battery. ADVANCED SCIENCE[J]. 2019, 6(22): https://doaj.org/article/d65a28e0668642a3822991ac3ea179f9.

　　[11] Wang, Qinglei, Zhang, Huanrui, Cui, Zili, Zhou, Qian, Shangguan, Xuehui, Tian, Songwei, Zhou, Xinhong, Cui, Guanglei. Siloxane-based polymer electrolytes for solid-state lithium batteries. ENERGY STORAGE MATERIALSnull. 2019, 23: 466-490, https://www.webofscience.com/wos/woscc/full-record/WOS:000495867200044.

　　[12] Lu, Di, Xu, Gaojie, Hu, Zhiwei, Cui, Zili, Wang, Xiao, Li, Jiedong, Huang, Lang, Du, Xiaofan, Wang, Yantao, Ma, Jun, Lu, Xiaolan, Lin, HongJi, Chen, ChienTe, Nugroho, Agustinus Agung, Tjeng, Liu Hao, Cui, Guanglei. Deciphering the Interface of a High-Voltage (5 V-Class) Li-Ion Battery Containing Additive-Assisted Sulfolane-Based Electrolyte. SMALL METHODS[J]. 2019, 3(10): [13] Shangguan, Xuehui, Xu, Gaojie, Cui, Zili, Wang, Qinglei, Du, Xiaofan, Chen, Kai, Huang, Suqi, Jia, Guofeng, Li, Faqiang, Wang, Xiao, Lu, Di, Dong, Shanmu, Cui, Guanglei. Additive-Assisted Novel Dual-Salt Electrolyte Addresses Wide Temperature Operation of Lithium-Metal Batteries. SMALL[J]. 2019, 15(16): [14] Xu, Gaojie, Huang, Suqi, Cui, Zili, Du, Xiaofan, Wang, Xiao, Lu, Di, Shangguan, Xuehui, Ma, Jun, Han, Pengxian, Zhou, Xinhong, Cui, Guanglei. Functional additives assisted ester-carbonate electrolyte enables wide temperature operation of a high-voltage (5 V-Class) Li-ion battery. JOURNAL OF POWER SOURCES[J]. 2019, 416: 29-36, http://dx.doi.org/10.1016/j.jpowsour.2019.01.085.

　　[15] Huang, Suqi, Cui, Zili, Qiao, Lixin, Xu, Gaojie, Zhang, Jianjun, Tang, Kun, Liu, Xiaochen, Wang, Qinglei, Zhou, Xinhong, Zhang, Botao, Cui, Guanglei. An in-situ polymerized solid polymer electrolyte enables excellent interfacial compatibility in lithium batteries. ELECTROCHIMICA ACTA[J]. 2019, 299: 820-827, http://dx.doi.org/10.1016/j.electacta.2019.01.039.

　　[16] Du, Aobing, Zhang, Huanrui, Zhang, Zhonghua, Zhao, Jingwen, Cui, Zili, Zhao, Yimin, Dong, Shanmu, Wang, Longlong, Zhou, Xinhong, Cui, Guanglei. A Crosslinked Polytetrahydrofuran-Borate-Based Polymer Electrolyte Enabling Wide-Working-Temperature-Range Rechargeable Magnesium Batteries. ADVANCED MATERIALS[J]. 2019, 31(11): [17] Qiao, Lixin, Cui, Zili, Chen, Bingbing, Xu, Gaojie, Zhang, Zhonghua, Ma, Jun, Du, Huiping, Liu, Xiaochen, Huang, Suqi, Tang, Kun, Dong, Shanmu, Zhou, Xinhong, Cui, Guanglei. A promising bulky anion based lithium borate salt for lithium metal batteries. CHEMICAL SCIENCE[J]. 2018, 9(14): 3451-3458, https://www.webofscience.com/wos/woscc/full-record/WOS:000429203500004.

　　[18] He, Jianjiang, Bao, Kaijing, Cui, Weiwei, Yu, Jiaojiao, Huang, Changshui, Shen, Xiangyan, Cui, Zili, Wang, Ning. Construction of Large-Area Uniform Graphdiyne Film for High-Performance Lithium-Ion Batteries. CHEMISTRY-A EUROPEAN JOURNAL[J]. 2018, 24(5): 1187-1192, https://www.webofscience.com/wos/woscc/full-record/WOS:000427316700027.

　　[19] Zhang, Zhonghua, Dong, Shamu, Cui, Zili, Du, Aobing, Li, Guicun, Cui, Guanglei. Rechargeable Magnesium Batteries using Conversion-Type Cathodes: A Perspective and Minireview. SMALL METHODSnull. 2018, 2(10): https://www.webofscience.com/wos/woscc/full-record/WOS:000446671200004.

　　[20] Zhang, Zhonghua, Chen, Bingbing, Xu, Huimin, Cui, Zili, Dong, Shanmu, Du, Aobing, Ma, Jun, Wang, Qingfu, Zhou, Xinhong, Cui, Guanglei. Self-Established Rapid Magnesiation/De-Magnesiation Pathways in Binary Selenium-Copper Mixtures with Significantly Enhanced Mg-Ion Storage Reversibility. ADVANCED FUNCTIONAL MATERIALS[J]. 2018, 28(1): http://www.irgrid.ac.cn/handle/1471x/1755328.

　　[21] He, Weisheng, Cui, Zili, Liu, Xiaochen, Cui, Yanyan, Chai, Jingchao, Zhou, Xinhong, Liu, Zhihong, Cui, Guanglei. Carbonate-linked poly(ethylene oxide) polymer electrolytes towards high performance solid state lithium batteries. ELECTROCHIMICA ACTA[J]. 2017, 225: 151-159, http://dx.doi.org/10.1016/j.electacta.2016.12.113.

　　[22] Du, Huiping, Zhang, Zhonghua, He, Jianjiang, Cui, Zili, Chai, Jingchao, Ma, Jun, Yang, Ze, Huang, Changshui, Cui, Guanglei. A Delicately Designed Sulfide Graphdiyne Compatible Cathode for High-Performance Lithium/Magnesium-Sulfur Batteries. SMALL[J]. 2017, 13(44): http://www.irgrid.ac.cn/handle/1471x/1755978.

　　[23] Jianjiang He, Ning Wang, Zili Cui, Huiping Du, Lin Fu, Changshui Huang, Ze Yang, Xiangyan Shen, Yuanping Yi, Zeyi Tu, Yuliang Li. Hydrogen substituted graphdiyne as carbon-rich flexible electrode for lithium and sodium ion batteries. NATURE COMMUNICATIONS[J]. 2017, 8(1): http://www.irgrid.ac.cn/handle/1471x/1755755.

　　[24] Xu, Huimin, Zhang, Zhonghua, Cui, Zili, Du, Aobing, Lu, Chenglong, Dong, Shanmu, Ma, Jun, Zhou, Xinhong, Cui, Guanglei. Strong anion receptor-assisted boron-based Mg electrolyte with wide electrochemical window and non-nucleophilic characteristic. ELECTROCHEMISTRY COMMUNICATIONS[J]. 2017, 83: 72-76, http://dx.doi.org/10.1016/j.elecom.2017.09.001.

　　[25] Du, Aobing, Zhang, Zhonghua, Qu, Hongtao, Cui, Zili, Qiao, Lixin, Wang, Longlong, Chai, Jingchao, Lu, Tao, Dong, Shanmu, Dong, Tiantian, Xu, Huimin, Zhou, Xinhong, Cui, Guanglei. An efficient organic magnesium borate-based electrolyte with non-nucleophilic characteristics for magnesium-sulfur battery. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2017, 10(12): 2616-2625, http://www.irgrid.ac.cn/handle/1471x/1755977.

　　[26] Zhang, Zhonghua, Cui, Zili, Qiao, Lixin, Guan, Jing, Xu, Huimin, Wang, Xiaogang, Hu, Pu, Du, Huiping, Li, Shizhen, Zhou, Xinhong, Dong, Shanmu, Liu, Zhihong, Cui, Guanglei, Chen, Liquan. Novel Design Concepts of Efficient Mg-Ion Electrolytes toward High-Performance Magnesium-Selenium and Magnesium-Sulfur Batteries. ADVANCED ENERGY MATERIALS[J]. 2017, 7(11): https://www.webofscience.com/wos/woscc/full-record/WOS:000402967200018.

　　[27] Cui, Yanyan, Liang, Xinmiao, Chai, Jingchao, Cui, Zili, Wang, Qinglei, He, Weisheng, Liu, Xiaochen, Liu, Zhihong, Cui, Guanglei, Feng, Jiwen. High Performance Solid Polymer Electrolytes for Rechargeable Batteries: A Self-Catalyzed Strategy toward Facile Synthesis. ADVANCED SCIENCE[J]. 2017, 4(11): http://www.irgrid.ac.cn/handle/1471x/1755976.

　　[28] Zhang, Zhonghua, Xu, Huimin, Cui, Zili, Hu, Pu, Chai, Jingchao, Du, Huiping, He, Jianjiang, Zhang, Jianjun, Zhou, Xinhong, Han, Pengxian, Cui, Guanglei, Chen, Liquan. High energy density hybrid Mg2+/Li+ battery with superior ultra-low temperature performance. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2016, 4(6): 2277-2285, http://ir.qibebt.ac.cn/handle/337004/7974.

　　科研活动

　　科研项目

　　( 1 ) 新型硼中心阴离子镁盐的设计、合成及其在电极界面的稳定机制研究, 主持, 国家级, 2020-01--2022-12

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