潘治良，中国科学技术大学工程科学学院热科学和能源工程系，特任教授、博士生导师。2018年本科毕业于西安交通大学能源与动力工程系，2023年博士毕业于美国范德堡大学机械工程系，2023年5月-2025年8月于美国范德堡大学机械工程系任博士后研究员，2024年入选国家创新人才青年项目（海优）。

一、联系方式

单位：中国科学技术大学工程科学学院热科学和能源工程系

地址：安徽省合肥市黄山路443中国科大西区力学五楼707B

邮编：230026

邮箱：zhiliangpan@ustc.edu.cn

二、个人经历

2014.08 – 2018.06   西安交通大学能源与动力工程系学士

2018.09 – 2023.05   范德堡大学机械工程系博士

2023.05 – 2025.08   范德堡大学机械工程系博士后

2025.09 – 至今        中国科大热科学和能源工程系特任教授

三、研究方向

主要采用实验测量及表征等手段，围绕微纳尺度能量输运开展研究，主要涉及以下几个方向：

1. 导热增强聚合物材料开发

2. 低维材料热输运机理研究

3. 声子极化激元传热性能研究与调节

4. 微纳结构热辐射性能表征

5. 多物理场耦合热学性能测试

6. 微纳材料电学/热学/热电等性能综合测试

研究成果获得了Deeptech 深科技, Nature Asia，Phys.org，中国聚合物网，Azonano, Vanderbilt Engineering News等科技媒体报道。

四、代表性论文

1. Huang, J., Rui, G., Yan, Y., Allahyarov, E., Kwok, M., Li, L., Zhang, S., Pan, Z., Li, D., Zhang, H., Mu, R., Zhao, B., Wang, Q., Tayler, P.L., Haglund, R., Zhang, Q.M., Zhu, L., (2025). Fluorine-free strongly dipolar polymers exhibit tunable ferroelectricity. Science, 389(6755), 69-72.

2. Fitzgerald, M.L., Pan, Z., Sauti, G., and Li, D., (2025). Thermal Conductivity of Silver Nanowire–Polymer Composites Prepared via Layered Assembly. Journal ofMaterials Research, 7(3), 1394-1400.

3. Li, D., Pan, Z., and Caldwell, J.D. (2024). Phonon Polariton-mediated Heat Conduction - Perspectives from Recent Progress. Journal ofMaterials Research,1-9.

4. Pan, Z., Lu, G., Li, X., McBride, J.R., Juneja, R., Long, M., Lindsay, L., Caldwell, J.D., and Li, D. (2023). Remarkable heat conduction mediated by non-equilibrium phonon polaritons. Nature,  623(7986), 307-312.

5. He, M., Hoogendoorn, L., Dixit, S., Pan, Z., Lu, G., Diaz-Granados, K., Li, D., and Caldwell, J.D. (2023). Guided Polaritons along the Forbidden Direction in MoO₃ with Geometrical Confinement. Nano Letters, 23(11), 5035-5041.

6. Lu, G., Pan, Z., Gubbin, C. R., Kowalski, R.A., Liberato, S.D., Li, D., and Caldwell, J.D. (2023). Launching and manipulation of higher‐order in‐plane hyperbolic phonon polaritons in low‐dimensional heterostructures. Advanced Materials, 35(22), 2300301.

7. Coughlin, A.L.^†, Pan, Z.^†, Hong, J.,Zhang, T., Zhan, X., Wu, W., Xie, D., Tong, T., Ruch, T., Heremans, J.J., Bao, J., Fertig, H.A., Wang, J., Kim, J., Zhu, H., Li, D., and Zhang, S. (2023). Enhanced Electron Correlation and Significantly Suppressed Thermal Conductivity in Dirac Nodal‐Line Metal Nanowires by Chemical Doping. Advanced Science, 10(2), 2204424.

8. Esteban-Linares, A., Wareham, L.K., Walmsley, T.S., Holden, J.M., Fitzgerald, M.L., Pan, Z., Xu. Y., and Li, D. (2022). Dynamic Observation of Retinal Response to Pressure Elevation in a Microfluidic Chamber. Analytical Chemistry, 94(36), 12297-12304.

9. Charles, A.P.R., Mu, R., Jin, T.Z., Li, D., Pan, Z., Rakshit, S., Cui, S.W., and Wu, Y. (2022). Application of yellow mustard mucilage and starch in nanoencapsulation of thymol and carvacrol by emulsion electrospray. Carbohydrate Polymers, 298, 120148.

10. Pan, Z., Lee, S. H., Wang, K., Mao, Z., and Li, D. (2022). Elastic stiffening induces one-dimensional phonons in thin Ta₂Se₃ nanowires. Applied Physics Letters, 120(6). (Editor's Pick)

11. Tao, Y., Pan, Z., Ruch, T., Zhan, X., Chen, Y., Zhang, S., and Li, D. (2021). Remarkable suppression of lattice thermal conductivity by electron-phonon scattering in iridium dioxide nanowires. Materials Today Physics, 21, 100517.

12. Pan, Z.,Tao, Y., Zhao, Y.,  Fitzgerald, M.L., McBride, J.R., Zhu, L., and Li, D. (2021). Bidirectional Modulation of Contact Thermal Resistance between Boron Nitride Nanotubes from a Polymer Interlayer. Nano Letters, 21(17), 7317-7324.

13. Yang, L., Tao, Y., Zhu, Y., Akter, M., Wang, K., Pan, Z., Zhao, Y., Zhang., Q., Xu, Y., Chen, R., Xu, T.T., Chen, Y., Mao, Z., and Li, D. (2021). Observation of superdiffusive phonon transport in aligned atomic chains. Nature Nanotechnology, 16(7), 764-768.

14. Fitzgerald, M.L., Zhao, Y., Pan, Z., Yang, L., Lin, S., Sauti, G., and Li, D. (2021). Contact Thermal Resistance between Silver Nanowires with Poly (vinylpyrrolidone) Interlayers. Nano Letters, 21(10), 4388-4393.

15. Pan, Z. ^†, Yang, L. ^†, Tao, Y., Zhu, Y., Xu, Y., Mao, Z., and Li, D. (2020). Net negative contributions of free electrons to the thermal conductivity of NbSe₃ nanowires. Physical Chemistry Chemical Physics, 22(37), 21131-21138. (2020 HOT PCCP article)

16. Zhao, Y., Fitzgerald, M.L., Tao, Y., Pan, Z., Sauti, G., Xu, D., Xu, Y., and Li, D. (2020). Electrical and thermal transport through silver nanowires and their contacts: effects of elastic stiffening. Nano Letters, 20(10), 7389-7396.

17. Pan, Z.,Li, P., Li, J., and Li, Y. (2017). Effects of Endwall Fillet and Bulb on the Temperature Uniformity of Pin-Fined Microchannel. Entropy, 19(11), 616.

Note: ^†indicates equal contributions.