M
Min Gu
Researcher at University of Shanghai for Science and Technology
Publications - 774
Citations - 26346
Min Gu is an academic researcher from University of Shanghai for Science and Technology. The author has contributed to research in topics: Photonic crystal & Laser. The author has an hindex of 78, co-authored 729 publications receiving 22238 citations. Previous affiliations of Min Gu include St. Vincent's Institute of Medical Research & University of Sydney.
Papers
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Journal ArticleDOI
Near-infrared photonic crystals with higher-order bandgaps generated by two-photon photopolymerization.
Martin Straub,Min Gu +1 more
TL;DR: Three-dimensional photonic crystals with bandgaps of 1.5-2.3 mum in wavelength and with gap/midgap ratios of as much as 18% were generated efficiently by two-photon photopolymerization in a liquid resin to investigate the decrease in the gap wavelength on reduction of layer spacing, in-plane rod spacing, and rod size.
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Athermally photoreduced graphene oxides for three-dimensional holographic images
Xiangping Li,Haoran Ren,Xi Chen,Juan Liu,Qin Li,Chengmingyue Li,Gaolei Xue,Jia Jia,Liangcai Cao,Amit Sahu,Bin Hu,Yongtian Wang,Guofan Jin,Min Gu +13 more
TL;DR: It is shown that reduced graphene oxide enabled write-once holograms for wide-angle and full-colour three-dimensional images through the discovery of subwavelength-scale multilevel optical index modulation of athermally reduced graphene oxides by a single femtosecond pulsed beam.
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Two-photon polymerisation for three-dimensional micro-fabrication
Shuhui Wu,Jesper Serbin,Min Gu +2 more
TL;DR: In this paper, an overview of the recent work related to the fabrication of 3D micro-structures and photonic devices by means of the two-photon polymerization (2PP) technology is introduced.
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Artificial neural networks enabled by nanophotonics.
TL;DR: Research into emerging ANNs enabled by nanophtonics that harness photons’ ability to carry vast amounts of information that will help researchers develop artificial neural networks with uses including brain disease research and machine learning are reviewed.
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Graphene oxide nanoparticles as a nonbleaching optical probe for two-photon luminescence imaging and cell therapy
TL;DR: Under femtosecond laser irradiation, graphene oxide nanoparticles (GONs) give strong two-photon luminescence (TPL) and induces microbubbling, which causes cell death at an order of magnitude lower laser power than when cells are not labeled.