教育及工作经历（含交大材料学院）

教师简介

党鹏飞博士于2025年12月加入西安交通大学材料学院强度研究室，担任助理教授。本科至博士均毕业于西安交通大学材料学院，师从薛德祯教授与周玉美教授。

党鹏飞博士主要从事相变金属材料研究，在高性能形状记忆合金开发、机器学习辅助材料设计等方面展开了系统的工作，截止2025年12月以第一/共一作者在 Adv. Mater.（2）、Nat. Commun.、Adv. Func. Mater.、Acta. Mater.、J. Mater. Sci. Technol. (2)、Scripta Mater. (2) 等国际权威期刊发表多篇论文，授权国家发明专利4项，曾获西安交通大学第15届“学术之星”（全校10人），入选首届中国科协青年人才托举博士生专项计划，获批主持国家自然科学基金青年学生基础研究项目（博士研究生）。

Dr. Pengfei Dang joined the School of Materials Science and Engineering at Xi'an Jiaotong University as an Assistant Professor in December 2025. He completed his undergraduate through doctoral studies at the same school, under the supervision of Professors Dezhen Xue and Yumei Zhou.

Dr. Dang's research primarily focuses on phase-transformation metallic materials. He has conducted systematic work in the development of high-performance shape memory alloys and machine learning-assisted materials design. As of December 2025, he has published multiple papers as the first or co-first author in prestigious international journals, including Advanced Materials (2), Nature Communications, Advanced Functional Materials, Acta Materialia, Journal of Materials Science & Technology (2), and Scripta Materialia (2). He holds 4 authorized Chinese national invention patents. His accolades include being selected as one of the Top 10 "Academic Stars" in the 15th edition at Xi'an Jiaotong University, inclusion in the inaugural China Association for Science and Technology (CAST) "Young Talent Support Project - Doctoral Student Special Program," and being granted the National Natural Science Foundation of China (NSFC) Young Student Basic Research Project (for doctoral candidates) as the principal investigator.

代表成果

科研项目

西安交通大学基础科研业务费学生类项目，2023.08-2024.12，3万元，主持，结题

国家自然科学基金青年学生基础研究项目，2025.01-2027.12，30万元，主持，在研

学术成果

[1] Dang P, Li C, Yang Y, Zhou Y*, Xu Y, Ding X*, Sun J, Xue D*. Ultrahigh elastic energy storage in nanocrystalline alloys with martensite nanodomains[J]. Advanced Materials, 2024, 36(50): 2408275.

[2] Dang P#, Hu J#, Xian Y, Li C, Zhou Y*, Ding X*, Sun J, Xue D*. Ultrahigh heat‐storage capacity based on generative learning‐designed phase‐change alloys[J]. Advanced Materials, 2025, 37(8): 2412198.

[3] Yao S#, Dang P#, Li Y, Wang Y, Liu Y, Qian S*, Xue D*, He Y*. Efficient roller-driven elastocaloric refrigerator[J]. Nature Communications, 2024, 15(1): 7203.

[4] Dang P, Chen Y, Gu W, Zhou Y*, Ding X*, Sun J, Xue D*. Design of a superelastic alloy uniting large functional response and exceptional cyclic stability[J]. Advanced Functional Materials, 2025, e20629.

[5] Dang P, Ye F, Zhou Y*, Ding L, Pang J, Zhang L, Ding X*, Sun J, Dai S*, Lookman T*, Xue D*. Low-fatigue and large room-temperature elastocaloric effect in a bulk Ti49.2Ni40.8Cu10 alloy[J]. Acta Materialia, 2022, 229: 117802.