报告人简介：

顾敏教授的主要研究领域是纳米/生物光子学，现任澳大利亚研究委员会荣誉委员，斯威本科技大学副校长，微光子学中心主任。顾敏教授是澳大利亚科学院院士，澳大利亚工程院院士，澳大利亚物理学会、美国光学学会、国际光学工程学会、英国物理学会会士。

顾敏教授长期从事光学显微成像、光学数据存储和光子晶体等方面的研究，出版了三本专著并发表了800多篇论文。其中，有330篇以上的论文发表在Nature和Nature Photonics等国际权威期刊上。他的研究成果曾被Nature Photonics、Nature Nanotechnology等媒体专题报道过2000多次。顾敏教授开拓的五维高密度光学数据存储、纳米等离子体太阳能电池和非线性光学内窥镜等研究方向已与国际知名公司展开合作研究，并在六家公司进行成果转化。他是国际生命光学学会主席，国际光学学会副主席，以及14个光电子学领域国际重要期刊的编委。

Biography:

Professor Min Gu is a Laureate Fellow of the Australian Research Council, a University Distinguished Professor and Director of the Centre of Micro-Photonics at Swinburne University of Technology. He was appointed as Pro Vice-Chancellor for International Research Collaboration (IRC) at Swinburne in 2009. He is an elected Fellow of the Australian Academy of Science, the Australian Academy of Technological Sciences and Engineering, the Australian Institute of Physics, the Optical Society of America, the International Society for Optical Engineering and the Institute of Physics (UK).

Professor Gu has conducted many pioneering projects in the area of bio/nanophotonics. He is a sole author of two standard reference books and the first author of the book published by Cambridge University Press in 2010. He has over 800 publications (over 330 papers in internationally refereed journals including Nature and Nature Photonics) in nano/biophotonics. His work has been featured more than 2000 times in media reports including Nature Photonics, Nature Nanotechnology et al. His inventions in five-dimensional high-density optical data storage, nanoplasmonic solar cells and nonlinear optical endoscopy, has led to the establishment of six spin-off companies and industrial joint R&D projects with international leading companies. He was President of the International Society of Optics within Life Sciences and is a Vice President of the International Commission for Optics. He is a member of the editorial board of 14 internationally leading journals in optical science and photonics.

报告摘要：

光纤和电荷耦合照相机的革命性发明获得了2009年诺贝尔物理学奖，揭示了光子学的科学影响力。光子学，以光子为研究和应用的载体，已经对我们的日常生活和全球经济产生了深刻变革，使人们走向可持续的未来。纳米光子学，即纳米尺度的光科学与技术，是光子学中新兴的前沿领域。纳米光子学致力于信息技术、绿色能源、癌症的早期检测、细胞工程和水资源净化等方面的研究，为我们的社会提供更好的环境和更加健康的生活。在此次论坛中，将报告我们微光子学中心近年来在纳米光子学领域中的研究进展，包括五维光学数据存储、非线性光学内窥成像和纳米等离子体太阳能电池等内容。

Abstract:

The revolutionary inventions of optical fibre and charge coupled cameras, which were award the 2009 Nobel Prize in physics, reveal the unequivocal impact of photonics. Photonics, a discipline in which photons rather electrons are studied and used, has transformed massively our everyday life and global economy for a sustainable future. Nanophotonics, defined as nanoscale optical science and technology, is a new frontier in photonics. The nanophotonic endeavours on information technology, green energy, early cancer detection, cellular engineering, and clean water resources are providing a better environment and a healthier life to our community. In this presentation, I will present our recent nanophotonic progress on five-dimensional optical data storage, nonlinear optical endoscopy, and nanoplasmonic solar cells.