余快，副教授，广东省青年拔尖人才，深圳市海外高层次人才，深圳大学荔园优青。哈尔滨工业大学，中国科学与技术大学，新加坡国立大学分别获得学士、硕士和博士学位，2013-2016年在美国斯坦福等学校从事博士后研究。随后入职深圳大学，主要从事超快光谱学，纳米光子学等。通过结合显微镜和超快光谱学技术，在飞秒时间尺度和纳米空间尺度上探索光与物质的相互作用。

Dr. Kuai Yu, Associate Professor, graduated from Harbin Institute of Technology with a Bachelor's degree in 2005. He received his Ph.D. from the National University of Singapore in 2013 studying single-particle spectroscopy. After continuing his postdoctoral work at the University of Notre Dame, Caltech, and Stanford, Dr. Yu joined Shenzhen University in 2016. Dr. Yu's current research interests focus on understanding light-matter interactions at the strong coupling regime.

教育经历：

• 博士(联合培养)，莱顿大学，荷兰 (Leiden University, Netherlands)，2012–2013

• 博士，新加坡国立大学，新加坡 (National University of Singapore)，2009–2012

• 硕士，中国科学与技术大学，2005–2008

• 学士，哈尔滨工业大学，2001–205

科研经历：

• 副教授，深圳大学，2016–至今

• 博士后，斯坦福大学，美国 (Stanford University)，2015–2016

• 博士后，加州理工大学，美国 (California Institute of Technology)，2014–2015

• 博士后，圣母大学，美国 (University of Notre Dame)，2013–2014

研究方向：

• 单颗粒超快光谱学 (Femtosecond time-resolved single particle spectroscopy)

• 表面等离子激元学 (Plasmonics)

• 低温高频声学振动 (High frequency acoustic vibrations at low-temperature)

• 细胞声学成像 (Single-cell acoustic imaging)

研究成果：

[1] K. Yu, Y. Yang, J. Wang, G. Hartland, G. P. Wang, Nanoparticle-fluid interactions at ultrahigh acoustic vibration frequencies studied by femtosecond time-resolved microscopy, ACS Nano 15, 1833 (2021).

[2] Y. Yang, L. Liu, H. Zhu, N. Bao, J. Ding, J. Chen, and K. Yu, Critical control of highly stable nonstoichiometric Mn-Zn ferrites with outstanding magnetic and electromagnetic performance for gigahertz high-frequency applications, ACS Applied Materials & Interfaces 12, 16609 (2020).

[3] J. Wang, K. Yu, Y. Yang, G. Hartland, J. Sader, and G. P. Wang, Strong vibrational coupling in room temperature plasmonic resonators, Nature Communications 10, 1527 (2019).

[4] J. Wang, Y. Yang, N. Wang, K. Yu, G. Hartland, and G. P. Wang, Long lifetime and coupling of acoustic vibrations of gold nanoplates on unsupported thin films, The Journal of Physical Chemistry A 123, 10339 (2019). (Special Issue Article, Supplementary Front Cover)

[5] Z. Zhang, K. Yu, and G. P. Wang, Edge effect on the population of free carriers and excitons in single-crystal CH₃NH₃PbBr₃ perovskite nanomaterials, Advanced Electronic Materials 5, 1900216 (2019).

[6] K. Yu, J. Wang, J. Chen, and G. P. Wang, Inhomogeneous photocarrier dynamics and transport in monolayer MoS₂ by ultrafast microscopy, Nanotechnology 30, 485701 (2019).

Please check my google scholar for the complete publication list: https://scholar.google.com/citations?user=TEztimUAAAAJ&hl=en