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Preoxidation for colorimetric sensor array detection of VOCs.Luminescent iridium phenanthroline crown ether complex for the detection of silver(I) ions in aqueous media.Single-indicator-based Multidimensional Sensing: Detection and Identification of Heavy Metal Ions and Understanding the Foundations from Experiment to Simulation.A colorimetric sensor array for detection of triacetone triperoxide vapor.A versatile platform for the highly efficient preparation of graphene quantum dots: photoluminescence emission and hydrophilicity-hydrophobicity regulation and organelle imaging.Applying Carbon Dots-Metal Ions Ensembles as a Multichannel Fluorescent Sensor Array: Detection and Discrimination of Phosphate Anions.Red, green, and blue luminescence by carbon dots: full-color emission tuning and multicolor cellular imaging.Carbon Dots Based Lab-on-a-Nanoparticle Approach for the Detection and Differentiation of Antibiotics.Bright-Yellow-Emissive N-Doped Carbon Dots: Preparation, Cellular Imaging, and Bifunctional Sensing.The use of a microreactor for rapid screening of the reaction conditions and investigation of the photoluminescence mechanism of carbon dots.Quadruple-channel sensing: a molecular sensor with a single type of receptor site for selective and quantitative multi-ion analysis.Effects of multiple ion loading on redox and luminescence properties of ruthenium trisphenanthroline crown ether hybrids.Triple-Mode Emission of Carbon Dots: Applications for Advanced Anti-Counterfeiting.Truly Fluorescent Excitation-Dependent Carbon Dots and Their Applications in Multicolor Cellular Imaging and Multidimensional Sensing.Colorimetric sensor array for detection and identification of organophosphorus and carbamate pesticides.A FRET-based carbon dot-MnO2 nanosheet architecture for glutathione sensing in human whole blood samples.A conjugated carbon-dot-tyrosinase bioprobe for highly selective and sensitive detection of dopaminePreparation of Multicolor Photoluminescent Carbon Dots by Tuning Surface States.A Facile Approach to Solid-State White Emissive Carbon Dots and Their Application in UV-Excitable and Single-Component-Based White LEDs.Semiconductor nanocrystals with adjustable hole acceptors: tuning the fluorescence intensity by metal-ion bindingA colorimetric indicator-displacement assay array for selective detection and identification of biological thiolsPaper-based colorimetric array test strip for selective and semiquantitative multi-ion analysis: simultaneous detection of Hg²⁺, Ag⁺, and Cu²⁺Facile, Quick, and Gram-Scale Synthesis of Ultralong-Lifetime Room-Temperature-Phosphorescent Carbon Dots by Microwave IrradiationConversion of Carbon Dots from Fluorescence to Ultralong Room-Temperature Phosphorescence by Heating for Security ApplicationsDisulfide bond-based self-crosslinked carbon-dots for turn-on fluorescence imaging of GSH in living cellsCe6-Modified Carbon Dots for Multimodal-Imaging-Guided and Single-NIR-Laser-Triggered Photothermal/Photodynamic Synergistic Cancer Therapy by Reduced Irradiation PowerCarbon Dots with Dual-Emissive, Robust, and Aggregation-Induced Room-Temperature Phosphorescence CharacteristicsFluorescent and photoacoustic bifunctional probe for the detection of ascorbic acid in biological fluids, living cells and in vivo
P50
Q30462198-F1316BAA-1665-4A83-9585-9A997809FCCEQ31131448-30513139-AB7D-4740-A8C3-767F050B4F11Q36870753-F6498643-141D-4E49-A540-0A659DB12150Q42857488-C78E9660-F152-4C3A-95D2-94E9ECAB2FD5Q47199157-0EBA4ABA-39C9-4037-9C4D-0C974E401108Q48219665-9EDCCE42-4FB1-4A59-B97D-3BF3B2BB5266Q48677736-0C69BD0E-1848-45B2-A713-5CCEB41DB128Q49711424-57D04CFC-BB0E-485F-ABFD-BBC95C93FFE8Q50209005-7A3F69D5-4B01-48F6-AED8-850694F1E48EQ50679476-DE0FB0BA-5830-4ACC-98A9-2048A2BEF85BQ51094064-8AEAB9D3-C8A6-43E2-9684-4B1ABD36E1D8Q51122104-55D295CD-63FB-48AC-913F-961DDFB185CBQ51349098-B4B90083-A1FC-457A-A5CE-EF18FD3DBD69Q51677987-2FF2EDD7-120B-471D-BDF0-ED651B032058Q52800796-EB62AA24-F7BD-4494-B9D3-CD582B9E6E8BQ53185015-415A9C8B-6A9D-448E-9C22-2A341A95F098Q58559311-02F872A9-BA7B-407A-AFFA-1F4A1E04C1ACQ64937894-ADE39B5D-99D1-4E32-A16D-AEECF3EECAB2Q64947629-40C45DDE-6600-432D-A419-3D006C534A87Q84750321-753AF79A-456C-4D64-AC75-336294946E17Q87126441-F737A071-361D-4229-89D0-199EF60F6C10Q87458871-9D349162-B151-4EC1-A3C5-966C2B3B78BDQ88325819-A0CEBAE7-52B7-44A5-9439-A0C13D8668A1Q88588917-58D4C0A0-BF44-4C96-8CEA-9201FD1C598BQ89989411-689FACA5-CA5F-488A-A8D8-09C7FDFA4475Q91070117-9FC3A4BB-DF6D-4544-BC1A-C027B37E3B0FQ91245448-93AEA74E-642B-4EC5-BA0C-91711D662930Q91474825-E50FCDA9-58FE-4AFA-AC32-7695F8629B54
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Hengwei Lin
@ast
Hengwei Lin
@en
Hengwei Lin
@es
Hengwei Lin
@nl
Hengwei Lin
@sl
type
label
Hengwei Lin
@ast
Hengwei Lin
@en
Hengwei Lin
@es
Hengwei Lin
@nl
Hengwei Lin
@sl
altLabel
Lin Hengwei; H. W. Lin
@en
prefLabel
Hengwei Lin
@ast
Hengwei Lin
@en
Hengwei Lin
@es
Hengwei Lin
@nl
Hengwei Lin
@sl
P1053
J-2888-2016
P106
P31
P3829
P496
0000-0002-0589-7035