Kun Luo
19 Papers
Kun Luo is an academic researcher. The author has contributed to research in topics: Chemistry & Fluorescence. The author has an hindex of 2, co-authored 11 publications.
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Papers
A biomarker (ONOO-)-activated multicolor fluorescent probe for early detection and assessment of arthritis
Weizhen Xu,Qiaomei Yang,Jiaqi Zeng,Libin Tan,Liyi Zhou,Longpeng Peng,Yizhuang Zhou,Can Xie,Kun Luo,Zhen Zhang +9 more
TL;DR: In this paper , an ONOO-activated multicolor fluorescent probe (MULTI-ONOO) based on FRET was developed for quantitative detecting and visualization of ONOO - levels in arthritis.
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Simulation of Anodic Current and Optimization of the Fitting Equation and the Fitting Algorithm during Constant Voltage Anodization
Chengyuan Li,Kun Luo,Bo Yan,Longfei Jiang,Pengze Li,Shiyi Wang,Yuantian Yu,Xufei Zhu,Ye Song +8 more
TL;DR: In this paper , a time-varying function C(t) is introduced to optimize the total current fitting equation used to describe the constant voltage anodization process, which makes the equation more in line with the real reaction process based on the kinetic model of ionic and electronic current.
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Activated Two-Photon Near-Infrared Ratiometric Fluorescent Nanoprobe for ONOO- Detection and Early Diagnosis and Assessment of Liver Injury.
TL;DR: A two-photon near-infrared (TP-NIR) ratiometric fluorescent nanoprobe (NTC) based on a fluorescence resonance energy transfer (FRET) strategy was designed, synthesized, and characterized, which had the advantages of good water solubility, low background interference, deep tissue penetration, and high imaging resolution.
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Rationally Constructed De Novo Fluorescent Nanosensor for Nitric Oxide Detection and Imaging in Living Cells and Inflammatory Mice Models.
TL;DR: In this paper , a de novo host-guest self-assembled nanosensor (CTA) was presented for the quantitative detection and visualization of NO levels in inflammatory models.
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Neo-construction of a SO2-tunable near-infrared ratiometric fluorescent probe for high-fidelity diagnosis and evaluation hazards of Cd2+-induced liver injury.
TL;DR: A novel fluorescent probe that can specifically detect SO2 in Cd2+-induced liver injury, which is critically important for the diagnosis and evaluation of Cd2+-induced liver injury diseases is developed.
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