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Xiaogang Liu
Researcher at National University of Singapore
Publications - 605
Citations - 54443
Xiaogang Liu is an academic researcher from National University of Singapore. The author has contributed to research in topics: Medicine & Photon upconversion. The author has an hindex of 94, co-authored 425 publications receiving 41825 citations. Previous affiliations of Xiaogang Liu include Heilongjiang University & Massachusetts Institute of Technology.
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Journal ArticleDOI
Recent Developments in Prosthesis Sensors, Texture Recognition, and Sensory Stimulation for Upper Limb Prostheses.
TL;DR: A review article is on recent developments while including foundational knowledge for some of the critical concepts in neural prostheses, with emphasis on texture recognition and sensory stimulation strategies that reestablish the lost sensory feedback loop.
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The Temperature of an Optically Trapped, Rotating Microparticle
Paloma Rodríguez-Sevilla,Yoshihiko Arita,Yoshihiko Arita,Xiaogang Liu,Daniel Jaque,Kishan Dholakia,Kishan Dholakia +6 more
TL;DR: In this article, a tripartite approach is proposed to determine temperature at the nano-to microscale with three independent measurements performed on a single trapped, rotating luminescent microparticle.
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Over-expressed EGR1 may exaggerate ischemic injury after experimental stroke by decreasing BDNF expression
L. Yang,Yongjun Jiang,Zhuoyu Wen,Xijia Xu,Juehua Zhu,X. Xie,Li Xu,Yi Xie,Xiaogang Liu,Gelin Xu,Gelin Xu +10 more
TL;DR: Ischemia-induced EGR1 expression may exaggerate brain injury by reducing BDNF expression and inhibiting E GR1 may become a potential treatment for improving outcomes of ischemic stroke.
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Nanoscale optical writing through upconversion resonance energy transfer
TL;DR: In this article, the authors demonstrate a simple and broadly applicable method based on resonance energy transfer from lanthanide-doped upconversion nanoparticles to graphene oxide for nanoscale optical writing.
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Suppression of Defect-Induced Quenching via Chemical Potential Tuning: A Theoretical Solution for Enhancing Lanthanide Luminescence
TL;DR: In this article, nonradiative decay occurring at lattice defect sites may constitute an essential pathway for luminescence quenching in lanthanide-doped upconversion nanomaterials.