洪子健
研究员
个人简介
个人概述 洪子健博士2020年8月起任职于浙江大学材料学院,受聘为“计划”研究员。主要从事计算材料学方向的研究,具体研究领域包括相场计算、第一性原理等,具体应用方向为金属基电池和铁电、压电材料等的设计。迄今为止发表论文40余篇,引用2000余次。其中主要作者文章包括3篇Nature, 4篇Nature Materials, 1篇PNAS, 4 篇ACS Energy Letters, 3 篇 Acta Materialia和2篇Nano Letters等。这些论文中有3篇为ESI高被引文献,1篇入选Nature Materials封面,2篇为ACS Energy Letters高关注度论文。受邀到多个高校和会议做邀请报告,包括加州大学伯克利分校、马里兰大学材料系和纽约州立大学布法罗分校机械工程系,以及中国材料大会等。现主持国家自然科学基金2项,浙江省自然科学基金重大项目1项,校级项目1项,参与校级团队1项。 教育背景 2006.09-2010.07 浙江大学材料系 工学学士 2010.09-2012.07 清华大学材料系 工学硕士 (导师 唐子龙教授) 2013.01-2017.08 宾州州立材料系 Ph. D. (导师 Prof. Long-Qing Chen) 工作经历 2012.07-2012.12 清华大学材料系唐子龙教授课题组 研究助理 2017.08-2020.07 卡内基梅陇大学机械工程系 博士后 2020.08至今 浙江大学材料学院 计划研究员 Email hongzijian100@zju.edu.cn 办公室地址 浙江省杭州市西湖区浙江大学紫金港校区和同苑10幢331 本课题组招收相关方向博士后,期待你与我们一起探索材料元宇宙~~~
研究领域
计算材料学 相场模拟 锂离子电池 铁电材料 压电材料
学术兼职
2014 第四届相场国际会议组委会委员 Nature Communications, Matter, ACS Energy Letters, Nano Letters, npj Computational Materials, Acta Materialia, Materials Today Nano 等业内知名杂志以及机器学习领域顶会NeurIPS等会议审稿人 卡内基梅隆大学能源周和匹兹堡量子研究院年会等大型会议海报评审员 Energy Materials Advances, Materials Futures, The innovation杂志青年编委 2022 MRS Fall Meeting分会场召集人 Energy Materials Advances “能源系统的多尺度模拟”专刊 链接Multiscale Simulations for Energy Materials | Science Partner Journal (sciencemag.org)
近期论文
2023 49、S. Jin, L. Zhou, Y. Wu*, S. Zhu, Q. Zhang, H. Yang, Y. Huang, Z. Hong* , Dynamics of the lithium metal electrodeposition: effects of a gas bubble, Adv. Energy Mater., 2300710 (2023). 48、Z. Lu, L. Zhou, Y. Yao, F. Li, Z. Hong*, Y. Wu, X. Li*, Reaction Mechanisms in Platinum-Mediated Electrodynamic Therapy, Adv. Funct. Mater., 2214749 (2023). 47、Y. Shao, S. Das, Z. Hong, R. Xu, S. Chandrika, F. Gómez-Ortiz, P. García-Fernández, L. Chen, H. Y. Hwang, J. Junquera, L. W. Martin, R. Ramesh, D. A. Muller, Emergent chirality in a polar meron to skyrmion phase transition, Nature Comunications, 14, 1355 (2023). 2022 46、X. Guo, L. Zhou, B. Roul, Y. Wu, Y. Huang, S. Das, Z. Hong*, Theoretical Understanding of Polar Topological Phase Transitions in Functional Oxide Heterostructures: A Review, Small Methods, 2200486. (2022). 45、F. Lv, J. Lin, Z. Zhou, Z. Hong*, Y. Wu, Z. Ren, Q. Zhang, S. Dong, J. Luo, J. Shi, R. Chen, B. Liu, Y. Su, Y. Huang, In-situ electrostatic field regulating the recrystallization behavior of P(VDF-TrFE) films with high β-phase content and enhanced piezoelectric properties towards flexible wireless biosensing device applications, Nano Energy, 100, 107507 (2022). 44、W. Li, T. Yang, C. Liu, Y. Huang, C. Chen, H. Pan, G. Xie, H. Tai, Y. Jiang, Y. Wu, Z. Kang, L. Chen,Y. Su, Z. Hong*, Optimizing Piezoelectric Nanocomposites by High-Throughput Phase-Field Simulation and Machine Learning, Advanced Science, 2105550 (2022). 43、L. Zhou, Y. Huang, S. Das, Y. Tang, C. Li, H. Tian, L. Chen, Y. Wu, R. Ramesh, Z. Hong*, Local Manipulation and topological phase transitions of polar skyrmions, Matter, 5, 3, 1031-1041 (2022). 42、L. Zhou,C. Dai,P. Meisenheimer,S. Das,Y. Wu,F. Gómez-Ortiz,P. García-Fernández,Y. Huang,J. Junquera,L. Chen,R. Ramesh, Z. Hong*, Order–Disorder Transitions in a Polar Vortex Lattice, Advanced Functional Materials, 202111392 (2022). 41、 Y. Liu, J. Liu, H. Pan, X. Cheng, Z. Hong, B. Xu, L. Chen, C. Nan, Y. Lin, Phase-Field Simulations of Tunable Polar Topologies in Lead-Free Ferroelectric/Paraelectric Multilayers with Ultrahigh Energy Storage Performance, Advanced Materials, 202108772 (2022). 40、P. Behera, M. May, F. Gómez-Ortiz, S. Susarla, S. Das, C. Nelson, L. Caretta, S. Hsu, M. McCarter, B. Savitzky, E. Barnard, A. Raja, Z. Hong, P. García-Fernandez, S. Lovesey, G. van der Laan, P. Ercius, C. Ophus, L. Martin, J. Junquera, M. Raschke, R. Ramesh, Electric field control of chirality, Science Advances, 8, eabj8030 (2022). 2021 39、 C. Dai, V. A. Stoica, S. Das, Z. Hong, L. W. Martin, R. Ramesh, J. Freeland, H. Wen, V. Gopalan, L. Chen*, Tunable Nanoscale Evolution and Topological Phase Transitions of a Polar Vortex Supercrystal, Advanced Materials, 2100196 (2021). 38、 Y. Zhou, Z. Hu, Y. Huang*, Y. Wu*, Z. Hong*, Effect of solution wash on the electrochemical performance of LiNi0.8Co0.1Mn0.1O2 cathode materials, Journal of alloys and Compounds, 888, 161584 (2021). 37、 C. Li#, Y. Huang#,*, J. Wang#,*, B. Wang, Y. Wu, H. Tian, L. Chen, Z. Hong*, Giant room temperature elastocaloric effect in metal-free thin-film perovskites, npj Computational Materials, 7, 132 (2021). 36、 L. Zhou, A. Yao, Y. Wu*, Z. Hu, Y. Huang*, Z. Hong*, Machine learning assisted prediction of cathode materials for Zn-ion batteries, Advanced theory and simulations, 2100196 (2021). 35、 Y. Gu,#, S. She#, Z. Hong*, Y. Huang*, Y. Wu*, Enabling lithium metal battery with flexible polymer/garnet type solid oxide composite electrolyte , Solid State Ionics, 368, 115710 (2021). 34、 X. Li,#, L. Zhou#, H. Wang, D. Meng, G. Qian, Y. Wang, Y. He, Y. Wu, Z. Hong,* Z. Ma. L. Li*, Dopants Modulate Crystal Growth in Molten Salts Enabled by Surface Energy Tuning, J. Mater. Chem. A, 2021, Accepted 33、 Z. Hong*,#, S. Das#, C. Nelson#, A. Yadav, Y. Wu*, J. Junquera, L. Chen, L. Martin, R. Ramesh*, Vortex domain walls in ferroelectrics, Nano Lett. 2021. 2020 32、 S.Das*, Z. Hong, M. McCarter, P. Shafer, Y. Shao, D. Muller, L. Martin, R. Ramesh*, A new era in ferroelectrics, APL Mater. 8, 120902 (2020). 31、 Z. Hong*, V. Viswanathan*, Open-Sourcing Phase-Field Simulations for Accelerating Energy Materials Design and Optimization, ACS Energy Lett. 5, XXX, 3254–3259 (2020). (*表示通讯作者, #表示共同一作)