虞培军

虞培军，海南大学副教授、博士生导师，海南自由贸易港高层次拔尖人才 (D类)。以第一作者或通讯身份在国际期刊上发表学术论文20余篇。主持国家自然科学基金青年基金1项，海南大学科研启动经费项目1项。

教育背景

2008.09-2012.07 上海理工大学  机械工程专业  工学学士

2014.09-2016.07 纽约州立大学  机械工程专业  理学硕士

2016.09-2019.07 香港城市大学  机械工程专业  理学博士

工作经历

2022.07-至今 海南大学 材料科学与工程学院 讲师

2019.09-2022.03 日本大阪大学 Department of Mechanical Science and Bioengineering 博士后

研究方向

(1) 计算材料学；

(2) 多主元合金；

(3) 材料微观缺陷模拟；

(4) 数据驱动材料研发；

讲授课程

本科课程：《大学物理》、《计算材料学方法》

科研成果

近年来承担的科研项目：

1. 海南大学科研启动基金项目，多主元合金多尺度理论研发，RZ2300002798，10万，2022-2027，主持

2. 国家自然科学基金青年项目，局部有序高熵合金的强韧化多尺度研究，52301010,2024-2026，主持

代表性论文：

1. Li, Y., Xie, W.*, Tu, J.*, Yu, P.*. (2025) Non-Determining Step Matters: Unveiling the Synergistic Mechanism of High-Entropy (NiCoFeMoIn) 3S4 Catalysts for Enhanced Oxygen Production in Seawater. Advanced Functional Materials. (通讯, IF=18.5)

2. Yu, P.*, Du, J. P., Shinzato, S., Meng, F. S., & Ogata, S. (2022). Theory of history-dependent multi-layer generalized stacking fault energy—A modeling of the micro-substructure evolution kinetics in chemically ordered medium-entropy alloys. Acta Materialia, 224, 117504. (一作/通讯，IF=8.3，一区top)

3. Yu, P., Feng, R., Du, J.P., Shinzato, S., Chou, J.P., Chen, B., Lo, Y.C., Liaw, P.K., Ogata, S., Hu, A. (2019). Phase transformation assisted twinning in a face-centered-cubic FeCrNiCoAl high entropy alloy. Acta Materialia, 181, 491-500. (一作/通讯，IF=8.3，一区top)

3. Yu, P., Chou, J.P., Lo, Y.C., Hu, A. (2019) An optimized random structures generator governed by chemical short-range order for multi-component solid solutions. Modelling and Simulation in Materials Science and Engineering. 27 (8), 085007.

4. Yu, P., Zhuang, Y., Chou, J.P., Wei, J., Lo, Y.C., Hu, A. (2019) The influence of dilute aluminum and molybdenum on stacking fault and twin formation in FeNiCoCr-based high entropy alloys based on density functional theory. Scientific Reports, 9 (1), 10940.

5. Yu, P., Feng, R., Du, J.P., Shinzato, S., Chou, J.P., Chen, B., Lo, Y.C., Liaw, P.K., Ogata, S., Hu, A. (2022). Corrigendum to Phase transformation assisted twinning in a face-centered-cubic FeCrNiCoAl high entropy alloy. Acta Materialia, 227, 117683. (一作/通讯，IF=8.3，一区top)

6. Xie, H., Wei, G., Du, J. P., Ishii, A., Lu, G., Yu, P.*, & Ogata, S. (2024). Shuffling pathway of anti-twinning in body-centered-cubic metals. Scripta Materialia, 246, 116083.

7. Du, J. P., Yu, P., Shinzato, S., Meng, F. S., Sato, Y., Li, Y., ... & Ogata, S. (2022). Chemical domain structure and its formation kinetics in CrCoNi medium-entropy alloy. Acta Materialia, 240, 118314. (IF=8.3，一区top)

8. Meng, F. S., Shinzato, S., Zhang, S., Matsubara, K., Du, J. P., Yu, P., ... & Ogata, S. (2024). A highly transferable and efficient machine learning interatomic potentials study of α-Fe–C binary system. Acta Materialia, 281, 120408. (IF=8.3，一区top)

9. Lin, W. T., Chen, D., Dang, C. Q., Yu, P., Wang, G., Lin, J. H., ... & Kai, J. J. (2021). Highly pressurized helium nanobubbles promote stacking-fault-mediated deformation in FeNiCoCr high-entropy alloy. Acta Materialia, 210, 116843. (IF=8.3，一区top)

10. Li, Y., Chen, H., Yu, P.*, & Yang, L. (2025). A review of artificial intelligence in enhancing architectural design efficiency. Applied Sciences, 15(3).

11. Li, Y., Chen, H., Yu, P.*, & Yang, L. (2025). Development and challenges of low-carbon cities in China: current situation, influencing factors, and sustainability strategies. Buildings, 15(3), 350.

12. Li, Y., Chen, H., Yu, P.*, & Yang, L. (2025). A Review of Artificial Intelligence Applications in Architectural Design: Energy-Saving Renovations and Adaptive Building Envelopes. Energies, 18(4), 918.

13. Li, Y., Chen, H., & Yu, P.* (2024). Green campus transformation in smart city development: A study on low-carbon and energy-saving design for the renovation of school buildings. Smart Cities, 7(5), 2940-2965.

14. Li, Y., Chen, H., Yu, P.*, & Yang, L. (2024). The application and evaluation of the LMDI method in building carbon emissions analysis: A comprehensive review. Buildings, 14(9), 2820.

15. Li, Y., Chen, H., Yu, P.*, & Yang, L. (2024). Analysis and reflection on the green, low-carbon, and energy-saving design of the super high-rise building. Sustainability, 16(10), 4146.