磁電子材料與器件研究組

何日，博士，副研究員

電子郵箱：heri@nimte.ac.cn

教育工作經(jīng)曆：

(1) 2008-09 至 2012-06, 沈陽建築大學(xué), 無機非金屬材料科學(xué)與工程, 學(xué)士

(2) 2012-09 至 2019-01, 東北大學(xué), 材料學(xué), 博士

(3) 2019-04 至 2021-05, 華南師範大學(xué),先進(jìn)光電子學(xué)院，博士後(hòu)

(4) 2021-05 至 2023-12, 中國(guó)科學(xué)院甯波材料技術與工程研究所，中科院磁性材料與器件重點實驗室，博士後(hòu)

(5) 2023-12 至今中國(guó)科學(xué)院甯波材料技術與工程研究所，中科院磁性材料與器件重點實驗室，副研究員

研究方向(xiàng)：長(cháng)期從事(shì)材料理論計算模拟方向(xiàng)的研究工作，綜合運用基于密度泛函理論的第一性原理計算、基于機器學(xué)習的深度勢能(néng)分子動力學(xué)、基于朗道(dào)-德文希爾自由能(néng)的相場模型，研究複雜氧化物鐵電、介電材料的構性關系，設計新型功能(néng)氧化物電子器件。

主持項目：
(1) 國(guó)家自然科學(xué)基金委員會,青年科學(xué)基金項目, 12204496, 基于深度學(xué)習的钛酸锶孿晶界多物理場響應的理論計算研究, 2023-01-01 至 2025-12-31,30萬元,主持

(2) 浙江省自然科學(xué)基金委員會,自然科學(xué)基金探索項目, Q23A040003, 基于深度學(xué)習的鐵基軟磁非晶合金原子結構與構性關系的理論計算研究, 2023-01 至 2025-12,10萬元,主持

(3) 甯波市自然科學(xué)基金委員會,自然科學(xué)基金一般項目, 基于深度學(xué)習的铪基鐵電疇界、相界多物理場響應的理論計算研究, 2023-06 至 2025-6, 6萬元,主持

(4) 國(guó)家自然科學(xué)基金委員會,專項項目, 12241201, 基于潛徑迹方法的微納尺度反應流動傳質研究, 2023-01-01 至 2026-12-31, 30/300萬元, 參與（材料所唯一）

論文發(fā)表情況：

(1) Ri He #; Bingwen Zhang#; Hua Wang; Lei Li; Tang Ping; Garrit Bauer; Zhicheng Zhong*; Acta Materialia 262, 119416 (2023).

(2) Ri He, Hua Wang*, Fucai Liu, Shi Liu, Houfang Liu, Zhicheng Zhong*; Unconventional ferroelectric domain switching dynamics in CuInP2S6 from first principles, Physical Review B 108, 024305 (2023).

(3) Ri He, Hongyu Wu, Xuejian Qin, Xuejiao Chen, Zhicheng Zhong*; Pressure-induced one-dimensional oxygen ion diffusion channel in lead-apatite, Physical Review B Appacped (2023).

(4) Ri He, H Xu, Peijun Yang, Kkai Chang, Hhua Wang, Zhicheng Zhong*; Ferroelastic twin wall mediated ferro-flexoelectricity and bulk photovoltaic effect in SrTiO3, arXiv:2310.10130 Physical Review L under review (2023).

(5) Minghao Shao#, Yuzhe Yang#, Ri He#, Ruiting Zhao, X Renshaw Wang, Zhicheng Zhong, Houfang Liu*, Yi Yang, Tian-Ling Ren; Advanced Electronic Materials, 2300352 (2023).

(6) Liang Gao, Ben-Lin Hu, Linping Wang, Jinwei Cao, Ri He, Fengyuan Zhang, Zhiming Wang, Wuhong Xue, Huali Yang, Run-Wei Li; Intrinsically elastic polymer ferroelectric by slight crosslinking. Science 381 (6657), 540-544 (2023).

(7) Qian Xiong^#, Xingbao Zhu^#, Ri He, Xueyi Mei, Yexin Zhang*, Zhicheng Zhong*, Wei Zhao, Weiming Nie, Jian Zhang*, Local Joule heating targets catalyst surface for hydrocarbon combustion, Journal of Industrial and Engineering Chemistry, 117, 273-281 (2023).

(8) Huiyuan Liu, Xiaojian Zhu, Zhecheng Guo, Ri He, Xinze Li, Qihao Sun, Xiaoyu Ye, Cui Sun, Yu Tian, Run-Wei Li; Artificial Spiking Neuron with Bursting Dynamics for Noise-Resistant Neuromorphic Coding, ACS Applied Electronic Materials (2023).

(9) Fenglin Deng, Hongyu Wu, Ri He, Peijun Yang, Zhicheng Zhong, Large-scale atomistic simulation of dislocation core structure in face-centered cubic metal with Deep Potential method, Computational Materials Science, 218: 111941 (2023).

(10) Ri He^#; Hongyu Wu^#; Linfeng Zhang; Xiaoxu Wang; Fangjia Fu; Shi Liu; Zhicheng Zhong ;Structural phase transitions in SrTiO₃ from deep potential molecular dynamics, Physical Review B, 105(6): 064104 (2022).

(11) Ri He; Hongyu Wu; Yi Lu; Zhicheng Zhong ; Origin of negative thermal expansion and pressure-induced amorphization in zirconium tungstate from a machine-learning potential, Physical Review B, 106: 174101 (2022).

(12) Hongyu Wu^#; Ri He^#; Yi Lu; Zhicheng Zhong; Large-scale Atomistic Simulation of Quantum Effects in SrTiO3 from First Principles, Physical Review B, 106：224102 (2022).

(13) W. Xue, Q. Jiang, F. Wang, Ri He, R. Pang, H. Yang, P. Wang, R. Yang, Z. Zhong, T. Zhai, X. Xu Discovery of Robust Ferroelectricity in 2D Defective Semiconductor α-Ga2Se3, Small, 10, 210059 (2022).

(14) H. Zhong, M. Li, Q. Zhang, L. Yang, Ri He, F. Liu, Z. Liu, G. Li, Q. Sun, D. Xie, F. Meng, Q. Li, M. He, E. Guo, C. Wang, Z. Zhong, X. Wang, L. Gu, G. Yang, K. Jin, P. Gao, C. Ge; Large-Scale Hf0.5Zr0.5O2 Membranes with Robust Ferroelectricity, Advanced Materials, 4, 2109889 (2022).

(15) S. Xie; Ri He; Q Zhu; M Jin; R Yang; S Shen; J Cui; Y Zou; M Zhang; L Shui, Colloids and Surfaces, A. Physicochemical and Engineering Aspects, 644 (2022).

(16) Jun Liang Lin^#, Yuanwei Sun^#, Ri He^#; Colossal Room-Temperature Ferroelectric Polarizations in SrTiO3/SrRuO3 Superlattices Induced by Oxygen Vacancies, Nano Letters, 22(17): 7104–7111 (2022).

(17) Ri He^#; Hongyu Wu^#; Shi Liu; Houfang Liu; Zhicheng Zhong ; Ferroelectric structural transition in hafnium oxide induced by charged oxygen vacancies, Physical Review B,104(18): L180102 (2021).

(18) Minghao Shao^#, Houfang Liu^#, Ri He^#, Xiaomei Li^#, Ruiting Zhao, Liang Wu, Ji Ma, Zhicheng Zhong, Yi Yu, Caihua Wan, Xuedong Bai, Tianling Ren, X. Renshaw Wang, arXiv preprint. 2106.10837. Physical Review L under review (2021).

(19) Ri He; Peiheng Jiang; Yi Lu; Yidao Song; Mingxing Chen; Mingliang Jin; Lingling Shui; Zhicheng Zhong; Polarity-induced electronic and atomic reconstruction at NdNiO2/SrTiO3 interfaces, Physical Review B, 102(3): 035118 (2020).

(20) Ri He^#; Jun Liang Lin^#; Qing Liu; Zhaoliang Liao; Lingling Shui; Zhan Jie Wang; Zhicheng Zhong; Run-Wei Li; Emergent ferroelectricity in otherwise nonferroelectric oxides by oxygen vacancy design at heterointerfaces, ACS Applied Materials & Interfaces, 12(40): 45602-45610 (2020).

(21) Jun Liang Lin^#; Ri He^#; Zengxing Lu; Yi Lu; Zhiming Wang; Zhicheng Zhong; Xiang Zhao; Run-Wei Li; Zhi Dong Zhang; Zhan Jie Wang; Oxygen vacancy enhanced ferroelectricity in BTO:SRO nanocomposite films, Acta Materialia, 199: 9–18 (2020).

(22) Song Y H, Wang M T, Ri He, Zong Y P, Jin J F. Grain Refinement by Second Phase Particles under Applied Stress in ZK60 Mg Alloy with Y through Phase Field Simulation. Materials, 11(10) (2018).

(23) Ri He; Ming-Tao Wang; Jian-Feng Jin; Ya-Ping Zong; Effect of elastic strain energy on grain growth and texture in AZ31 magnesium alloy by phase-field simulation, Chinese Physics B, 26(12): 128201 (2017).

(24) Xianggang Zhang, Wang MT, Ri He, Zong Y P. A phase field model to simulate competitive precipitation of Mg2Sn along the basal or pyramidal habit planes in Mg-2.2Sn-0.1Zn alloy. Computational Materials Science, 127: 261-269 (2017).

(25) Ri He; Mingtao Wang; Xiangang Zhang; Bernie Yaping Zong; Influence of second-phase particles on grain growth in AZ31 magnesium alloy during equal channel angular pressing by phase feld simulation, Modelling and Simulation in Materials Science and Engineering, 24: 055017 (2016).