about
In Situ Localization of Enzyme Activity in Live Cells by a Molecular Probe Releasing a Precipitating Fluorochrome.A mitochondrial-targeted prodrug for NIR imaging guided and synergetic NIR photodynamic-chemo cancer therapy.Supramolecular assembly affording a ratiometric two-photon fluorescent nanoprobe for quantitative detection and bioimaging.Engineering of a near-infrared fluorescent probe for real-time simultaneous visualization of intracellular hypoxia and induced mitophagy.Fluorescence-Guided Cancer Diagnosis and Surgery by a Zero Cross-Talk Ratiometric Near-Infrared γ-Glutamyltranspeptidase Fluorescent ProbeUltrathin two-dimensional covalent organic framework nanoprobe for interference-resistant two-photon fluorescence bioimagingA "Double-Locked" and enzyme-activated molecular probe for accurate bioimaging and hepatopathy differentiationRecent progresses in small-molecule enzymatic fluorescent probes for cancer imagingEngineering of a bioluminescent probe for imaging nitroxyl in live cells and miceA cell membrane-anchored fluorescent probe for monitoring carbon monoxide release from living cellsNear-Infrared Fluorescent Furin Probe for Revealing the Role of Furin in Cellular Carcinogenesis and Specific Cancer ImagingA bioluminescent probe for imaging endogenous hydrogen polysulfides in live cells and a murine model of bacterial infectionLearning from Artemisinin: Bioinspired Design of a Reaction-Based Fluorescent Probe for the Selective Sensing of Labile Heme in Complex BiosystemsEngineering dithiobenzoic acid lactone-decorated Si-rhodamine as a highly selective near-infrared HOCl fluorescent probe for imaging drug-induced acute nephrotoxicityTwo-Photon Supramolecular Nanoplatform for Ratiometric BioimagingEngineering Self-Calibrating Nanoprobes with Two-Photon-Activated Fluorescence Resonance Energy Transfer for Ratiometric Imaging of Biological SelenocysteineImaging of peroxynitrite in drug-induced acute kidney injury with a near-infrared fluorescence and photoacoustic dual-modal molecular probe
P50
Q47867488-A3ADBB01-2A7C-4379-B009-1E12152731F0Q52606053-8C2AB0E3-3C42-47E5-8294-C434789DA720Q52641510-4AA428A2-CD48-4984-83D9-B3182EBC8635Q64927400-19F14CF3-3C52-40C1-9B9F-DB565386FB2EQ90421144-AE1F54F6-A2DB-4AEA-BA35-9720E3B91920Q90442593-3630E52C-9C6E-42C1-9BE6-E7E8C219D8E6Q90448066-0FFC20E8-A2DE-4E70-9612-44FAC3413E97Q91119208-F213AF5E-17E6-44FA-9F53-19264F34DC1DQ91139526-6CE767DE-66A5-4907-BE4D-E95EFB7476D8Q91323693-D94DA666-8593-4EE4-86E0-68A08273F96BQ91699281-69E86A12-48E6-4FBA-8F3D-F6E5CD1FAF44Q92623424-7676E501-9054-4212-BA0E-4FF3613DA0F5Q92753564-EAFB11EC-6CED-4482-AEB3-6EE1A4A1A681Q92809448-F99D3B95-CE20-43EB-8B2F-8CA3E6933213Q92918618-CD99DEE9-9E1C-438C-913C-BBCE866B0F6AQ93175168-5F9BB4CC-E4B5-40A0-A9E5-FDEE7D8E769CQ96578561-786A0EE6-C0F8-46BB-ACD8-79079E07967F
P50
description
researcher
@en
name
Hong-Wen Liu
@en
type
label
Hong-Wen Liu
@en
prefLabel
Hong-Wen Liu
@en
P31
P496
0000-0001-8757-1620