明辰 副研
學(xué)歷:博士研究生
電話(huà):021-69163650
電子郵件:mingchen@mail.sic.ac.cn
通訊地址:上海市嘉定區和碩路585號
郵政編碼:201899
個(gè)人主頁(yè):無(wú)
個(gè)人簡(jiǎn)歷:
個(gè)人簡(jiǎn)介:
2012年于復旦大學(xué)獲得物理學(xué)博士,2014年進(jìn)入中國科學(xué)院上海硅酸鹽研究所高性能陶瓷和超微結構國家重點(diǎn)實(shí)驗室集成計算中心工作,歷任博士后、助理研究員和副研究員。
科研簡(jiǎn)介:
以無(wú)機材料缺陷設計為核心,基于多尺度計算方法(包括第一性原理、經(jīng)驗勢力場(chǎng)和相場(chǎng)方法)和大數據方法(包括高通量計算和機器學(xué)習),圍繞光伏、熱電和鐵電壓電等功能材料開(kāi)展研究工作,一方面探索的新奇物性和物理現象,另一方面面向應用開(kāi)展材料設計工作。
1. 新型鈣鈦礦光電材料設計
系統研究了鹵族鈣鈦礦材料體系的缺陷性質(zhì),提出基于高缺陷容忍性的光伏材料設計原則;結合高通量計算篩選預測了新型穩定無(wú)鉛光伏材料CuBiSCl2,其原型器件獲得1 %的光電轉換效率和大于1 V的開(kāi)路電壓。
2. 柔性熱電材料設計
研究了有機-準一維無(wú)機范德華復合材料的電熱輸運性能,提出界面復合機制;研究了無(wú)機塑性半導體材料Ag2S體系的缺陷性質(zhì),揭示固溶調控載流子濃度的機制,為無(wú)機柔性熱電材料設計提供理論方案。
3. 壓電陶瓷微結構設計
發(fā)展了織構陶瓷有效壓電性能計算的相場(chǎng)模型和方法,系統了研究PMN-PT織構陶瓷復雜微結構對其有效壓電性能的影響機制,為壓電陶瓷微結構優(yōu)化提供指導。
代表性論文:
完整論文列表請見(jiàn)Publons或Google scholar
https://publons.com/researcher/5281221/chen-ming/
https://scholar.google.com.hk/citations?hl=zh-CN&user=ViYFbzQAAAAJ
[1] Z. Shao#, A. Huang#, C. Ming#, J. Bell, P. Yu, Y.-Y. Sun*, L. Jin, L. Ma, H. Luo*, P. Jin, X. Cao*, All-solid-state proton-based tandem structures for fast-switching electrochromic devices, Nature Electronics, 5 (2022) 45-52.
[2] C. Ming#, Z. Chen#, F. Zhang#, S. Gong#, X. Wu, J. Jiang, T. Ye, Q. Xu, K. Yang, L. Wang, X. Cao, S. Yang*, S. Zhang, Y. Zhang*, J. Shi*, Y.-Y. Sun*, Mixed Chalcogenide-Halides for Stable, Lead-Free and Defect-Tolerant Photovoltaics: Computational Screening and Experimental Validation of CuBiSCl2 with Ideal Band Gap, Advanced Functional Materials, DOI : https://doi.org/10.1002/adfm.202112682(2022) 2112682.
[3] S. Qu#, C. Ming#, P. Qiu*, K. Xu, Q. Xu, Q. Yao, P. Lu, H. Zeng, X. Shi*, L. Chen, High-performance n-type Ta4SiTe4/polyvinylidene fluoride (PVDF)/graphdiyne organic–inorganic flexible thermoelectric composites, Energy & Environmental Science, 14 (2021) 6586-6594.
[4] C. Ming, K. Yang, H. Zeng, S. Zhang, Y.-Y. Sun*, Octahedron rotation evolution in 2D perovskites and its impact on optoelectronic properties: the case of Ba–Zr–S chalcogenides, Materials Horizons, 7 (2020) 2985-2993.
[5] C. Ming, H. Wang, D. West, S. Zhang, Y.-Y. Sun*, Defect tolerance in CsPbI3: reconstruction of the potential energy landscape and band degeneracy in spin–orbit coupling, Journal of Materials Chemistry A, 10 (2022) 3018-3024.
[6] X. Wu, W. Gao, J. Chai, C. Ming*, M. Chen, H. Zeng, P. Zhang, S. Zhang, Y.-Y. Sun*, Defect tolerance in chalcogenide perovskite photovoltaic material BaZrS3, Science China Materials, 64 (2021) 2976-2986.
[7] Q. Xu#, C. Ming#, T. Xing, P. Qiu*, J. Xiao, X. Shi*, L. Chen, Thermoelectric properties of phosphorus-doped van der Waals crystal Ta4SiTe4, Materials Today Physics, 19 (2021) 100417
[8] C. Ming, T. Yang, K. Luan, L. Chen, L. Wang, J. Zeng, Y. Li, W. Zhang, L.-Q. Chen*, Microstructural effects on effective piezoelectric responses of textured PMN-PT ceramics, Acta Materialia, 145 (2018) 62-70.