基本信息

伦正言   男    博导    化学科学学院
电子邮件:zylun@ucas.ac.cn
通信地址:北京市怀柔区怀北镇怀北庄380号中国科学院大学东校区
办公电话:010-69672533

研究领域

(1)新型储能材料的设计与合成,如锂、钠离子电池电极及固态电解质等。

(2)先进(原位)表征技术及其应用 ,如同步辐射,固体核磁ssNMR,干涉散射光学成像iSCAT等

(3)固体材料合成科学

(4)其他你个人感兴趣的相关研究方向

   课题组每年招收1-2名硕士生和博士生,长期招聘博士后、研究助理及联合培养学生。具体职位招聘简介:https://m.x-mol.com/job/3297

   课题组主页:https://lungroup.github.io


招生信息

招生内容:

(1)本科生实习及毕设

(2)硕士及博士研究生(每年各1-2名) 招生专业:080502 材料学   085600 材料与化工

联系时请附带个人简历及本科(和研究生)阶段成绩单

暂无招收留学生计划,相关申请请勿联系。No position for international students. Please DO NOT email for related applications.

招收2026年入学推免硕士研究生1人(080502 材料学),有编程、人工智能在材料科学中应用、固态电池相关工作基础的报考人优先考虑。

(3)科研助理,一般需要有相关专业硕士学位 (2025-2026年度预计招收不超过2名,招满为止)

(4)博士后 研究员,具体说明如下:

(a)固态电解质方向、高压电解液方向及智能电池设计方向博士后研究员各1名,入职时间灵活可议,工作地点为中国科学院大学雁栖湖校区。申请人应具有材料、化学、物理或其他相关领域博士学位,或入职前即将获得相应博士学位;应具有锂、钠离子电池固态电解质材料合成、表征、全电池组装与电化学性能测试等相关研究经历或锂离子电池高压电解液设计、合成与表征相关研究经历,同时具有同步辐射、电子显微技术或核磁共振材料表征等研究经历、具有电池产业化经验或具备一定编程能力(python、C program等)的申请人尤其鼓励申请。

(b)招收与高能物理所(怀柔光源)联合培养博士后研究员,工作地点为北京怀柔光源,工作职责为进行能源材料的先进同步辐射表征研究及其原位、成像方法学开发,并协助线站进行相关用户支持工作。有同步辐射相关经验的申请者鼓励申请。

(c)申请人应具有扎实的学科基础,良好的独立科研工作能力和英文水平,良好的表达和沟通能力,科研态度端正。

(d)待遇优厚,中国科学院大学为博士后研究员提供“中国科学院大学特别研究助理”资助项目(覆盖率可达90%以上)。入选者年薪可达40万(税前,包含五险一金等福利待遇),对于优秀的申请者,课题组会提供额外薪资及科研经费支持,具体采取一事一议原则。

“中国科学院大学特别研究助理”2024年第一批申请通知如下,可供参考。

https://mp.weixin.qq.com/s/vejuqDZuWlCoRzxtrPJI8g   

(5)中国科学院大学“E系列”副研究员

(a)申请中国科学院大学E系列科研岗位,年龄一般应不超过35 周岁,具有博士学位,具有博士后或两年及以上海外科研工作经历,近五年以第一作者或通讯作者在本领域高水平期刊发表论文3 篇(含)以上。

(b)E 系列研究员科研岗位人员采取与学校签订劳动合同的方式管理,学校可协助解决北京户口(非临时户口)。合同期限一般为3年,经双方协商一致,可续签一次,合同期满时符合条件者可申请参加学校长聘岗位评审,通过评审后直接晋升为长聘副教授。

(c)聘期内可承担学校/学院部分课程的教学任务,聘期内可依托国科大申请国家、省部级、中国科学院等人才计划和科研项目。

(d)薪资待遇与“中国科学院大学特别研究助理”项目相同。


招生专业
080502-材料学
070301-无机化学
招生方向
储能材料
先进材料表征方法

教育背景

2016-08--2020-12   加州大学伯克利分校   博士
2012-08--2016-06   中国科学技术大学   学士

工作经历

2021.04 - 2022.06  剑桥大学   副研究员(博士后)

2022.07 起    中国科学院大学 化学科学学院  特别研究员,副教授  博士生导师

教授课程

群论及其在化学中的应用
科研实践
高等无机化学

出版信息

# Co-authorship     * corresponding authorship

(24) Hao Chen#, Yuchen Zhang#, Yongjian Zhao#, Junhong Liao, Jia He, Runze Yu, Shendong Tan, Runjie Zhang, Tingzheng Hou* , Xianhu Sun* , Zhengyan Lun*; Chelator Optimization Enabled Defect Engineering for Cation Disordered Rocksalt Cathodes via Solution-based Synthesis Method. Energy Storage Materials, 2024, 103990.

 

(23) Yu Chen, Xinye Zhao, Ke Chen, Krishna Prasad Koirala, Raynald Giovine, Xiaochen Yang, Shilong Wang, Nathan J. Szymanski, Shuoyan Xiong, Zhengyan Lun, Huiwen Ji, Chongmin Wang, Jianming Bai, Feng Wang, Bin Ouyang*, Gerbrand Ceder*; Coherent-Precipitation-Stabilized Phase Formation in Over-Stoichiometric Rocksalt-Type Li Superionic Conductors. Advanced Materials, 2024, 2416342.

 

(22) Fanjun Liu, Jia He, Hao Chen, Wei Yang, Runze Yu, Zhengyan Lun*; Design Principles for HighCapacity, LongLife CationDisordered Rocksalt Cathodes. Advanced Functional Materials, 2024, 2419907.

 

(21) Yuchen Zhang#, Hao Chen#, Runze Yu, Wei Yang, Jia He, Haoyang Li, Xianhu Sun*, Zhengyan Lun*; Unlocking fast Li-ion transport in micrometer-sized Mn-based cation-disordered rocksalt cathodes. Journal of Energy Chemistry, 2024, 99, 645-653.

 

(20) Peichen Zhong, Bowen Deng, Tanjin He, Zhengyan Lun, Gerbrand Ceder* , Deep learning of experimental electrochemistry for battery cathodes across diverse compositions. Joule, 2024, 8 (6), 1837-1854.


(19) Yu Chen, Zhengyan Lun, Xinye Zhao, Krishna Prasad Koirala, Linze Li, Yingzhi Sun, Christopher A O’Keefe, Xiaochen Yang, Zijian Cai, Chongmin Wang, Huiwen Ji*, Clare P Grey*, Bin Ouyang*, Gerbrand Ceder*; Unlocking Li superionic conductivity in face-centred cubic oxides via face-sharing configurations. Nature Materials, 2024, 23(4), 535-542 


(18) Zijian Cai#, Bin Ouyang#, Han-Ming Hau, Tina Chen, Raynald Giovine, Krishna Prasad Koirala, Linze Li, Huiwen Ji, Yang Ha, Yingzhi Sun, Jianping Huang, Yu Chen, Vincent Wu, Wanli Yang, Chongmin Wang, Raphaële J Clément, Zhengyan Lun*, Gerbrand Ceder*; In situ formed partially disordered phases as earth-abundant Mn-rich cathode materials. Nature Energy, 2024, 9, 27-36.

 

(17) Lizhi Li, Guangsu Tan, Jiangwei Tao, Zhengyan Lun*, Chao Xu*; Benchmarking the Performance of Moisture-Sensitive Battery Materials: the Importance of the Electrode Preparation Method. ACS Applied Energy Materials,  2023, 6(13), 6883–6889.

 

(16) Nathan J Szymanski, Zhengyan Lun, Jue Liu, Ethan C Self, Christopher J Bartel, Jagjit Nanda, Bin Ouyang, Gerbrand Ceder*; Modeling Short-Range Order in Disordered Rocksalt Cathodes by Pair Distribution Function Analysis. Chemistry of Materials, 2023, 35(13), 4922–4934.

 

(15) Ke Zhou, Chunyang Zhang, Yining Li, Xiangsi Liu, Jianjun Liu, Zhengyan Lun*, Yong Yang*; A Critical Evaluation of Interfacial Stability in Li-excess Cation-disordered Rock-salt Oxide Cathode. Chemical Engineering Journal, 2023, 464, 142709.

 

(14) Jianping Huang#, Bin Ouyang#, Yaqian Zhang, Liang Yin, Deok-Hwang Kwon, Zijian Cai, Zhengyan Lun, Guobo Zeng, Mahalingam Balasubramanian, Gerbrand Ceder*; Inhibiting collective cation migration in Li-rich cathode materials as a strategy to mitigate voltage hysteresis Nature Materials, 2023, 22 (3), 353-361


(13) Jianping Huang, Peichen Zhong, Yang Ha, Zhengyan Lun, Yaosen Tian, Mahalingam Balasubramanian, Wanli Yang, Gerbrand Ceder*; Oxygen Vacancy Introduction to Increase the Capacity and Voltage Retention in LiExcess Cathode Materials. Small Structures, 2023, 4 (1), 2200343.

 

(12) Chao Xu#; Alice J. Merryweather#; Shrinidhi S. Pandurangi#; Zhengyan Lun; David S. Hall; Vikram S. Deshpande; Norman A. Fleck; Christoph Schnedermann*; Akshay Rao*; Clare P. Grey*; Operando visualization of kinetically induced lithium heterogeneities in single-particle layered Ni-rich cathodes. Joule, 2022, 6 (11), 2535-2546.


(11) Xinye Zhao, Yaosen Tian, Zhengyan Lun, Zijian Cai, Tina Chen, Bin Ouyang*Gerbrand Ceder*; Design principles for zero-strain Li-ion cathodes. Joule, 2022, accepted.


(10) Zijian Cai#, Ya-Qian Zhang#, Zhengyan Lun#*, Bin Ouyang, Leighanne C. Gallington, Yingzhi Sun, Han-Ming Hau, Yu Chen, Mary C. Scott*, Gerbrand Ceder*;  Thermodynamically driven synthetic optimization for cation-disordered rocksalt cathodes. Advanced Energy Materials, 2022, 12, 2103923.


(9) Zhengyan Lun#; Bin Ouyang#; Deok-Hwang Kwon; Yang Ha; Emily E Foley; Tzu-Yang Huang; Zijian Cai; Hyunchul Kim; Mahalingam Balasubramanian; Yingzhi Sun; Jianping Huang; Yaosen Tian; Haegyeom Kim; Bryan D McCloskey; Wanli Yang; Raphaële J Clément; Huiwen Ji*; Gerbrand Ceder*; Cation-disordered rocksalt-type high-entropy cathodes for Li-ion batteries, Nature Materials, 2021, 20(2): 214-221.


(8) Zhengyan Lun#; Bin Ouyang#; Zijian Cai; Raphaële J Clément; Deok-Hwang Kwon; Jianping Huang; Joseph K. Papp; Mahalingam Balasubramanian; Yaosen Tian; Bryan D. McCloskey; Huiwen Ji; Haegyeom Kim; Daniil A. Kitchaev; Gerbrand Ceder*; Design Principles for High-Capacity Mn-Based Cation-Disordered Rocksalt Cathodes, Chem, 2019, 6(1): 153-168.


(7) Zhengyan Lun; Bin Ouyang; Daniil A. Kitchaev; Raphaële J. Clément; Joseph K. Papp; Mahalingam Balasubramanian; Yaosen Tian; Teng Lei; Tan Shi; Bryan D. McCloskey; Jinhyuk Lee*; Gerbrand Ceder*; Improved Cycling Performance of Li-Excess Cation-Disordered Cathode Materials upon Fluorine Substitution, Advanced Energy Materials, 2018, 9(2). 


(6) Daniil A. Kitchaev#*; Zhengyan Lun#; William D. Richards; Huiwen Ji; Raphaële J. Clément; Mahalingam Balasubramanian; Deok-Hwang Kwon; Kehua Dai; Joseph K. Papp; Teng Lei; Bryan D. McCloskey; Wanli Yang; Jinhyuk Lee; Gerbrand Ceder*; Design principles for high transition metal capacity in disordered rocksalt Li-ion cathodes, Energy & Environmental Science, 2018, 11(8): 2159-2171.


(5) Linze Li#Zhengyan Lun#; Dongchang Chen; Yuan Yue; Wei Tong; Guoying Chen; Gerbrand Ceder*; Chongmin Wang*; Fluorination-Enhanced Surface Stability of Cation- Disordered Rocksalt Cathodes for Li-Ion Batteries, Advanced Functional Materials. (2021): 2101888.


(4) Bin Ouyang#; Nongnuch Artrith#Zhengyan Lun#; Zinab Jadidi; Daniil A. Kitchaev; Huiwen Ji; Alexander Urban; Gerbrand Ceder*; Effect of Fluorination on Lithium Transport and Short- Range Order in Disordered-Rocksalt-Type Lithium-Ion Battery Cathodes, Advanced Energy Materials, 2020, 10(10). 


(3) Peichen Zhong#; Zijian Cai#; Yaqian Zhang; Raynald Giovine; Bin Ouyang; Guobo Zeng; Yu Chen; Raphaële J. Clément; Zhengyan Lun*; Gerbrand Ceder*; Increasing Capacity in Disordered Rocksalt Cathodes by Mg Doping, Chemistry of Materials, 2020, 32(24): 10728-10736.


(2) Raphaële J Clément; Zhengyan Lun; Gerbrand Ceder*; Cation-disordered rocksalt transition metal oxides and oxyfluorides for high energy lithium-ion cathodes, Energy & Environmental Science, 2020, 13(2): 345-373.


(1) Jinhyuk Lee*; Daniil A. Kitchaev; Deok-Hwang Kwon; chang-Wook Lee; Joseph K. Papp; Yi-Sheng Liu; Zhengyan Lun; Raphaële J. Clément; Tan Shi; Bryan D. Mccloskey; Jinghua Guo; Mahalingam Balasubramanian; Gerbrand Ceder*; Reversible Mn 2+/Mn 4+ double redox in lithium-excess cathode materials, Nature, 2018, 556(7700): 185-190.