高扬，浙江大学“计划”研究员，博士生导师，国家级青年人才项目获得者，现任浙江大学国家级力学实验教学示范中心副主任。主要研究领域为微纳米力学、极端力学和物理力学，相关研究成果发表于Nature Materials、Nature Nanotechnology、 Physical Review Letters、PNAS等国际知名期刊 。目前主要研究方向包括 （1）基于扫描探针的纳米材料与结构的高精度、高通量力学测试技术，开发了基于原子力显微镜的埃压痕技术，可用于表征和调控二维材料和范德华异质结的层间和界面力学耦合行为。（2）极端高压下低维材料的结构相变和物态调控，实现了常温下压力驱使的双层石墨烯 - 二维金刚石（钻石烯）的相变；利用金刚石对顶砧技术探索了石墨烯莫尔超晶格在高压下的能带调控和电子学行为。（3）深海设备。近年来主持科技部重点研发课题、国家自然科学基金面上项目、青年项目，骨干参与国家自然科学基金重大项目等多个国家级项目。 现阶段实验室的重点研究方向为范德华异质结构的力学性质及其高压力-电-光耦合行为。欢迎有志于科研的博士后、研究助理、博士生、硕士生以及高年级本科生加入我的课题组。如感兴趣，可将个人简历及相关代表作发送至ygao96@zju.edu.cn。 Yang Gao, Hundred-Talent Assitant Professor at the School of Aeronautics and Astronautics. Our research is focused on nano-mechanics, extreme mechanics and high pressure physics. We are using experimental tools like atomic force microscopy and diamond anvil cell to invesitage the mechanical and other physical properties of novel materials and structures. We have published journal articles on Nature Materials, Nature Nanotechnology, PRL, etc. Postdoc and graduate students positions are available. Highly-motivated undergrads are also welcome. 教育背景和工作经历 2020年8月 - 至今 浙江大学航空航天学院 ，“计划”研究员 2017年11月 - 2020年5月 美国加州大学伯克利分校，材料科学与工程系，博士后研究员 2017年5月 - 2017年7月 美国纽约市立大学先进科学研究中心，博士后研究员 2012年8月 - 2017年5月 美国佐治亚理工学院，物理系，博士 2008年9月 - 2012年6月 北京大学，物理学院，学士 Education and Research Backgrounds 2020 - present School of Aeronautics and Astronautics, Assistant Professor 2017.11 - 2020.5 UC Berkeley, Department of Materials Science and Engineering, Postdoc Scholar 2017.5 - 2017.7 Advanced Science Research Center, CUNY, Postdoc Scholar 2012.8 - 2017.5 Georgia Institute of Technology, Physics, Ph.D. 2008.9 - 2012.8 Peking University, Physics, B.S.

微纳米力学 高压物理 极端力学 二维材料

16. T. Zhang#, Y. Tong#, C. Pan, J. Pei, X. Wang, T. Liu, B. Yin*, P. Wang*, Y. Gao*, L. Tong, W. Yang, Challenging the ideal strength limit in ultrathin gold nanoflakes through phase engineering, in review. 15. Y. Tong, C. Pan, Z. Li*, H. Chen, D. Xue, L. Cheng, Y. Zhen, T. Zhang, Y. Gao, L. Zhang, X. Guo, L. Tong, P. Wang*, "High-sensitivity fiber-tip acoustic sensor with ultrathin gold diaphragm", Optics Express, 2024. 14. 王晓萌, 高扬*, "基于原子力显微镜的压痕技术及其应用", 高压物理学报 37(6), 2023. 13. H. Wang, X. Tian, Y. Gao* and L. Zhu*, "Atomic-scale insight of size-dependent compressibility of nanocrystalline Pt under high pressure", Applied Physics Letters 123(4), 2023. 12. J. Liu, L. Jin, F. Allen, Y. Gao, P. Ci, F. Kang and J. Wu*, "Selective gas permeation in defect-engineered bilayer graphene", Nano Letters, 21(5): 2183-2190, 2021. 11. 高扬, "原子力显微镜在二维材料力学性能测试中的应用综述", 力学学报, 53(4), 2021. 10. Y. Gao, X. Lin, T. Smart, P. Ci, K. Watanabe, T. Taniguchi, R. Jeanloz, J. Ni, and J. Wu*, "Band engineering of large-twist-angle graphene/h-BN moire superlattices with pressure", Physical Review Letters, 125(226403), 2020. (PRL_2020.pdf) 9. H. Liu#, X. Yu#, K. Wu, Y. Gao, S. Tongay, A. Javey, L. Chen*, J. Hong* and J. Wu*, "Extreme in-plane thermal conductivity anisotropy in titanium trisulfide caused by heat-carrying optical phonons", Nano Letters, 20(7): 5221-5227, 2020. (NanoLett_2020.pdf) 8. J. Lin#, H. Chen#, Y. Gao#, Y. Cai, A. Etman, J. Kang, T. Lei, Z. Lin, L. Quan, Q. Kong, M. Sherburne, M. Asta, J. Sun, M.Toney, J. Wu* and P. Yang*, "Pressure induced semiconducting to metallic phase transition of a charge-ordered Indium halide perovskite", PNAS, 116(47): 23404-23409, 2019. (PNAS_2019.pdf) 7. F. Cellini, Y. Gao, and E. Riedo*, "Å-Indentation for non-destructive elastic moduli measurements of supported ultra-hard thin films and nanostructures", Scientific Reports, 9(1): 4075, 2019. (SciRep_2019.pdf) 6. F. Lavini#, A. Calo#, Y. Gao, E. Albisetti, T.-D. Li, T. Cao G. Li, L. Cao, C. Aruta* and E. Riedo*, "Friction and work function oscillatory behavior for even and odd number of layers in polycrystalline MoS2", Nanoscale, 10 (17): 8304-8312, 2018. (Nanoscale_2018.pdf) 5. Y. Gao#, T. Cao#, F. Cellini, C. Berger, W. de Heer, E. Tosatti, E. Riedo* and A. Bongiorno*, "Ultrahard carbon film from epitaxial two-layer graphene", Nature Nanotechnology, 13(2): 133-138, 2018. (NatureNano_2018.pdf) 4. A. Gurarslan, S. Jiao, T.‐D. Li, G. Li, Y. Yu, Y. Gao, E. Riedo, Z. Xu and L. Cao*, "Van der Waals force isolation of monolayer MoS2", Advanced Materials, 28(45): 10055-10060, 2016. (AdvMat_2016.pdf) 3. Y. Gao#, S. Kim#, S. Zhou, H.-C. Chiu, D. Nelias, C. Berger, W. de Heer, R. Sordan, L. Polloni, A. Bongiorno* and E. Riedo*, "Elastic coupling between the layers in 2D materials", Nature Materials, 14(7): 714-720, 2015. (NatureMat_2015.pdf) 2. A. Laraoui, H. Aycock-Rizzo, Y. Gao, X. Lu, E. Riedo* and C. Meriles*, "Imaging thermal conductivity with nanoscale resolution using a scanning spin probe", Nature Communications, 6, 2015. (NatureComm_2015.pdf) 1. K. Carroll, X. Lu, S. Kim, Y. Gao, H.-J. Kim, S. Somnath, L. Polloni, R. Sordan, W. King, J. Curtis* and E. Riedo*, "Parallelization of thermochemical nanolithography", Nanoscale, 6(3): 1299-1304, 2014. (Nanoscale_2014.pdf)