张宏亮

张宏亮

青年研究员，博士生导师

复旦大学现代物理研究所

上海市杨浦区邯郸路220号200433

办公室：现代物理所1-216

工作电话：(021)65641665

电子邮箱：hlz@fudan.edu.cn

（常年招收博士、硕士研究生及博士后，欢迎联系）

教育及工作经历：

 2023.4-至今    复旦大学                                   青年研究员

 2021.8-2023.4  美国威斯康辛大学麦迪逊分校   副研究员/实验室主任

 2020.8-2021.7  美国威斯康辛大学麦迪逊分校   助理研究员

 2018.8-2020.7  美国威斯康辛大学麦迪逊分校   博士后

 2013.9-2018.7  复旦大学                                 博士

 2017.1-2018.2  美国爱达荷国家实验室             联合培养博士   

 2009.9-2013.7  复旦大学                                 本科  

学术荣誉：

 2025  美国金属矿物学会（TMS） 最佳研究论文奖

 2024  世界腐蚀大会 青年科学家奖

 2024  Young Scientist Award, International Corrosion Council

 2023上海市 “领军人才”

 2022Fellow of Vebleo

 2022国家自然科学基金优秀青年科学基金项目（海外）

 2022Best Researcher Award, NuMat 2022

 2021上海市 “千人计划”

学术兼职：

 1. Materials 主题编辑

 2. Frontiers in Materials 客座编辑

 3. Tungsten，Nuclear Science 编委

 4. 中国核物理学会反应堆物理与核材料专委会 委员

 5. 中国核学会辐照效应分会 理事

 6. 中国核学会和测试与分析分会 理事

 7. 上海市核工业系统专家委员会 委员/核技术应用组 副组长

 8. 国家自然科学基金 项目评审专家

承担项目：

 1. 2025-2028  国家自然科学基金  面上项目                   53万     主持

 2. 2025-2026  GF科工局              JG项目                      100万    主持

 3. 2025-2025  中国核动力院        离子辐照偏析研究      68万     主持

 4. 2024-2027  国家自然科学基金  优秀青年科学基金      300万    主持

 5. 2024-2026  上海市科委             探索者项目               100万    主持

 6. 2024-2026  教育部重点实验室  开放课题基金            10万     主持

 7. 2023-2025  内蒙古科技厅         重点项目                   449万    主持

研究方向：

 1. 核反应堆结构材料的设计及服役性能研究

面向各类反应堆的材料要求，研究材料的设计、制备、辐照及腐蚀效应。

部分亮点媒体报道：

https://physicsworld.com/a/radiation-alters-ceramic-grain-boundaries/

https://scitechdaily.com/revolutionary-new-discovery-on-metal-malleability/

https://phys.org/news/2019-08-revolutionary-metals-malleable.html

https://zhuanlan.zhihu.com/p/385157418

https://www.ccnta.cn/article/6139.html

2. 聚变堆材料服役行为研究

面向聚变堆服役工况，研究核心材料的服役行为及性能提升方案。

 3. 离子束分析技术及其应用

    面向先进能源、国防安全等国家战略需求，研究先进离子束分析方法。

 4. AI for Science在核材料领域的应用

    运用机器学习开展材料设计、性能预测、图像识别等研究。

代表性成果：

发表论文逾60篇，其中包括2篇Nature Materials， 2篇Science Advances，2篇Nature Communications，10篇Acta Materialia等。

Google Scholar：https://scholar.google.com/citations?user=HXf7Dy8AAAAJ&hl

ResearchGate：https://www.researchgate.net/profile/Hongliang-Zhang-7

2025

1. Nuohao Liu, Xuanxin Hu, Jizhe Cai, Ranran Su, Ramathasan Thevamaran, Hongliang Zhang, John H. Perepezko, and Izabela Szlufarska. Strain rate effects on shear-band behavior in the Al-Sm system. Acta Materialia 284 (2025): 120632. 

2. Junliang Liu, Fei Xue, Wenyu Zhang, Hongliang Zhang, Philipp Frankel, Gene Lucadamo, William Howland et al. Evidence for hydrogen and oxygen diffusion through grain boundaries in autoclave formed oxides on Zircaloy-4: A correlative APT and TEM study. Corrosion Science (2025): 112981.

3. Meng Wang, Wei Zhang, Bo Xin, Jie Gao, Liqun Shi, and Hongliang Zhang*. Measurement of proton elastic scattering cross-section of Zr and deuterium distribution in thick ZrDx films. Nuclear Instruments and Methods in Physics Research Section B 559 (2025): 165576.

2024

4. Hongliang Zhang*, Ranran Su, Benoit Queylat, Taeho Kim, Shuguang Wei, Xuanxin Hu, Antoine Ambard, and Adrien Couet. Synergistic effects of Ultraviolet radiation and corrosion on Zr alloys. Acta Materialia (2024): 119943.

5. Bonita Goh, Yafei Wang, Phalgun Nelaturu, Hongliang Zhang, Michael Moorehead, Thien Duong, Pikee Priya et al. Nobility vs. mobility: Insights into molten salt corrosion mechanisms of high-entropy alloys via high-throughput experiments and machine learning. Matter (2024).

6. Yafei Wang, Aeli P. Olson, Cody Falconer, Brian Kelleher, Ivan Mitchell, Hongliang Zhang, Kumar Sridharan, Jonathan W. Engle, and Adrien Couet. Radionuclide tracing based in situ corrosion and mass transport monitoring of 316L stainless steel in a molten salt closed loop. Nature Communications 15, no. 1 (2024): 3106.

7. Nuohao Liu, Xuanxin Hu, Jizhe Cai, Ranran Su, Ramathasan Thevamaran, Hongliang Zhang, John H. Perepezko, and Izabela Szlufarska. Strain rate effects on shear-band behavior in the Al-Sm system. Acta Materialia (2024): 120632.

8. Lin-Ping He, Cong Li, Jie Gao, Wei Zhang, Li-Qun Shi, and Hongliang Zhang*. Quantify typical trapping sites of deuterium in tungsten by sequential thermal desorption coupled with a dedicated numerical diffusion model. Nuclear Fusion (2024).

9. Meng Wang, Cong Li, Dongya Zhang, Shan Qin, Bo Xin, Ranran Su, Liqun Shi, and Hongliang Zhang*. Effects of Scandium doping on the deuterium absorption and desorption behavior of titanium films. International Journal of Hydrogen Energy 92 (2024): 569-579.

10. Li, Cong, Xiao-Wa Wang, Ran-Ran Su, Xuan-Xin Hu, Shu-Guang Wei, Han-Jun Tu, Li-Qun Shi, and Hongliang Zhang*. Deuterium distribution and behavior of blisters in pre-damaged and undamaged tungsten. Tungsten (2024): 1-10.

11. Shuguang Wei, Muhammad Waqas Qureshi, Jianqi Xi, Jun Young Kim, Xing Wang, Jingrui Wei, Ranran Su, Longfei Liu, William O. Nachlas, John H. Perepezko, Hongliang Zhang*, Izabela Szlufarska Radiation induced segregation in titanium diboride. Acta Materialia (2024): 119739.

12. Jianqi Xi, Hongliang Zhang*, Ranran Su, Shuguang Wei, Xuanxin Hu, Benoit Queylat, Taeho Kim, Adrien Couet, and Izabela Szlufarska. Coupling of radiation and grain boundary corrosion in SiC. npj Materials Degradation 8, no. 1 (2024): 16.

13. Meng Wang, Wei Zhang, Bo Xin, Jie Gao, Liqun Shi, and Hongliang Zhang*. Measurement of proton elastic scattering cross-section of Zr and deuterium distribution in thick ZrDx films. Nuclear Instruments and Methods in Physics Research Section B 559 (2025): 165576.

14. Hongliang Zhang*, Ranran Su, Benoit Queylat, Taeho Kim, Gene Lucadamo, William Howland, and Adrien Couet. 3D reconstruction and interconnectivity quantification of the nano-porosity in the oxide layer of corroded Zr alloys. Corrosion Science 226 (2024): 111630.

2023

15. Xuanxin Hu, Nuohao Liu, Vrishank Jambur, Siamak, Ranran Su, Hongliang Zhang*, Jianqi Xi, Hubin Luo, John Perepezko, and Izabela Szlufarska. Amorphous shear bands in crystalline materials as drivers of plasticity. Nature Materials (2023): 1-7.

16. Zefeng Yu, Hongliang Zhang, Anton Schneider, Taeho Kim, Yongfeng Zhang, Sten Lambeets, Arun Devaraj, and Adrien Couet. Irradiation damage reduces alloy corrosion rate via oxide space charge compensation effects. Acta Materialia 253 (2023): 118956.

17. Ranran Su, Hongliang Zhang, Gaoyuan Ouyang, Longfei Liu, Duane D. Johnson, and John H. Perepezko*. Oxidation mechanism in a refractory multiple-principal-element alloy at high temperature. Acta Materialia 246 (2023): 118719.

18. Cody Falconer, Hongliang Zhang, Kumar Sridharan, and Adrien Couet. Novel pyrolytic boron nitride coating to reduce graphite interactions in molten fluoride salt. Corrosion Science 220 (2023): 111292.

19. Ranran Su, Hongliang Zhang, Longfei Liu, and John H. Perepezko. Boron capture stabilizing the diffusion barriers in a two-step Mo-Si-B coated Refractory Multi-Principal Element Alloy. Corrosion Science (2023): 111365.

20. Kuan-Yu Chen, Prabhat K. Tripathy, Kunal Mondal, Hongliang Zhang, and Joseph B. Andrews. Solution Processed Schottky Diodes Enabled by Silicon Carbide Nanowires for Harsh Environment Applications. Nano Letters 23, no. 7 (2023): 2816-2821.

21. Su, R., J. R. Becker, L. Liu, H. Zhang, X. Hu, and J. H. Perepezko. Phase Stability During High-Temperature Oxidation. JOM (2023): 1-8.

22. Ranran Su, Liqun Shi, John H. Perepezko, and Hongliang Zhang*. Helium-driven element depletion and phase transformation in irradiated Ti3SiC2 at high temperature. Journal of the European Ceramic Society 43, no. 8 (2023): 3104-3111.

2022

23. Hongliang Zhang*, Taeho Kim, Jadin Swarts, Zefeng Yu, Ranran Su*, Longfei Liu, William Howland, Gene Lucadamo, and Adrien Couet. Nano-Porosity effects on Corrosion Rate of Zr Alloys Using Nanoscale Microscopy Coupled to Machine Learning. Corrosion Science (2022): 110660.

24. Jun Young Kim, Hongliang Zhang*, Ranran Su, Jianqi Xi, Shuguang Wei, Peter Richardson, Longfei Liu, Erich Kisi, John H. Perepezko, and Izabela Szlufarska. Defect recovery processes in Cr-B binary and Cr-Al-B MAB phases: structure-dependent radiation tolerance. Acta Materialia 235 (2022): 118099.

25. Jun Young Kim, Hongliang Zhang, Jianqi Xi, and Izabela Szlufarska. Trends in the Behavior of Point Defects in MB and MAB Phases. Chemistry of Materials 34, no. 17 (2022): 7807-7816.

26. Ranran Su, Hongliang Zhang, and Liqun Shi. Irradiation effects on Ti2AlC thin films. Nuclear Science and Engineering (2022).

27. Hongliang Zhang*, William Howland, and Adrien Couet. Study of Nano-porosity and Corrosion Rate in Zr Alloys using a Machine-learning Based Method. Nuclear Science and Engineering (2022)

28. Dongya Zhang, Peter Richardson, Hanjun Tu, John O’Connor, Erich Kisi, Hongliang Zhang*, Liqun Shi*. Radiation damage of MoAlB at elevated temperatures: Investigating MAB phases as potential neutron shielding materials. Journal of the European Ceramic Society 42, no. 4 (2022): 1311-1321.

29. Longfei Liu, Chunchang Shi, Chenyu Zhang, Ranran Su, Hongliang Zhang, Paul M. Voyles, and John H. Perepezko. The effect of Al on the oxidation behavior of Mo-6Si-12B-(1, 2, 4, 8) Al alloys. Corrosion Science 208 (2022): 110677.

2021

30. Shuguang Wei, Hongliang Zhang*, Tangpatjaroen, J. Tarnsangpradit, A. D. Usta, M. Eriten, J. H. Perepezko, and I. Szlufarska. Wear-induced microstructural evolution of ultra-fine grained (UFGs) aluminum. Acta Materialia (2021): 116787.

31. Ranran Su, Hongliang Zhang*, Haiming Wen*, Liqun Shi*. Reversible phase transformation in Ti₂AlC films during helium ion irradiation and subsequent annealing, Journal of the European Ceramic Society, 2021

32. Ranran Su, Hongliang Zhang, Gaoyuan Ouyang, Longfei Liu, Will Nachlas, Jun Cui, Duane D. Johnson, John H. Perepezko. Enhanced Oxidation Resistance of (Mo95W5)85Ta10(TiZr)5 Refractory Metal Multi-Principal Element Alloy up to 1300°C. Acta Materialia, 2021

33. Hongliang Zhang*, Ranran Su, Izabela Szlufarska, Haiming Wen*, Liqun Shi. Helium effects and bubbles formation in irradiated Ti₃SiC₂, Journal of the European Ceramic Society, 41, no. 1 (2021): 252-258.

34. Hongliang Zhang*, Jianqi Xi, Ranran Su, Xuanxin Hu, Shuguang Wei, Jun Young Kim, Izabela Szlufarska^*, Enhancing the phase stability of ceramics under radiation via multilayer engineering. Science Advances, 2021

35. Jun Young Kim, Jianqi Xi, Hongliang Zhang, and Izabela Szlufarska. Defect chemistry of Cr-B binary and Cr-Al-B MAB phases: Effects of covalently bonded B networks. Physical Review Materials 5, no. 11 (2021): 113603.

36. Michael Moorehead, Benoit Queylat, Hongliang Zhang, Kim Kriewaldt, and Adrien Couet. Development of a versatile, high-temperature, high-throughput ion irradiation system. Nuclear Instruments and Methods in Physics Research Section A (2021): 165892

37. Shuguang Wei, Chaiyapat Tangpatjaroen, Hongliang Zhang, and Izabela Szlufarska. Microstructural Evolution of Ultra-Fine Grained (UFGs) Aluminum in Tribological Contacts. In Light Metals 2021, pp. 257-262. Springer, Cham, 2021.

2020

38. Xing Wang^#, Hongliang Zhang^#, Tomonori Baba, Hao Jiang, Cheng Liu, Yingxin Guan, Omar Elleuch et al. Radiation-induced segregation in a ceramic. Nature Materials. 2020, 1-7.

39. Hongliang Zhang*, Jun Young Kim, Ranran Su, Peter Richardson, Jianqi Xi, Erich Kisi, John O'Connor, Liqun Shi, and Izabela Szlufarska. Defect behavior and radiation tolerance of MAB phases (MoAlB and Fe₂AlB₂) with comparison to MAX phases. Acta Materialia 196 (2020): 505-515.

40. Christos Athanasiou, Hongliang Zhang, Cristina Ramirez, Jianqi Xi, Tomonori Baba, Xing Wang, Wei Zhang, Nitin P. Padture, Izabela Szlufarska, and Brian W. Sheldon. High toughness carbon-nanotube-reinforced ceramics via ion-beam engineering of interfaces. Carbon 163 (2020): 169-177.

41. Hubin Luo, Hongliang Zhang, Hongwei Sheng, J. Ping Liu, and Izabela Szlufarska. Amorphous shear bands in SmCo5. Materials Science and Engineering: A 785 (2020): 139340.