about
Tumor microenvironment-triggered fabrication of gold nanomachines for tumor-specific photoacoustic imaging and photothermal therapyA simple approach for glutathione functionalized persistent luminescence nanoparticles as versatile platforms for multiple in vivo applications.A pre-protective strategy for precise tumor targeting and efficient photodynamic therapy with a switchable DNA/upconversion nanocomposite.A mitochondria-targeted nanoradiosensitizer activating reactive oxygen species burst for enhanced radiation therapy.A Dual-Targeted Organic Photothermal Agent for Enhanced Photothermal TherapyRatiometric Fluorescent Quantification of the Size-Dependent Cellular Toxicity of Silica NanoparticlesA graphene-based fluorescent nanoprobe for simultaneous monitoring of miRNA and mRNA in living cellsSimultaneous Fluorescence Visualization of Epithelial-Mesenchymal Transition and Apoptosis Processes in Tumor Cells for Evaluating the Impact of Epithelial-Mesenchymal Transition on Drug EfficacyRapid Preparation of Au-Se-Peptide Nanoprobe Based on a Freezing Method for BioimagingCatalase-like metal-organic framework nanoparticles to enhance radiotherapy in hypoxic cancer and prevent cancer recurrenceA cancer cell membrane-camouflaged nanoreactor for enhanced radiotherapy against cancer metastasisAn anti-inflammatory nanoagent for tumor-targeted photothermal therapyFluorescent probes for organelle-targeted bioactive species imagingBoosting Cancer Therapy with Organelle-Targeted NanomaterialsProgrammed Release of Dihydroartemisinin for Synergistic Cancer Therapy Using a CaCO3 Mineralized Metal-Organic FrameworkAsymmetric kinetic resolution of sulfides for the construction of unsymmetric sulfides and chiral 3,3-disubstituted oxindolesA nuclear-targeted titanium dioxide radiosensitizer for cell cycle regulation and enhanced radiotherapy
P50
Q41671112-6DC2D60E-FA7E-478C-B8E9-E4C33FC8D91BQ52643407-0694C284-F2E4-42FA-8C0C-977146E2AD6DQ55081781-BF8FAD73-A976-472C-9930-72D8E97CDD6FQ55143303-B097706A-F153-41E0-A9FC-B71886131235Q58604449-F847B18C-856C-4A10-BB99-31D5C0F179B0Q90008894-B30C08A1-CB9E-4EAD-A5DC-0DC40C8F0E46Q90237198-BEB50548-F6D1-481F-8835-16CE402A4E20Q91176021-C1B9EA90-C4AE-47DB-AC0D-3865C68D10B8Q91320922-20CB7251-C252-47F7-90F2-4C69715948BCQ91784239-11C719E5-8CF3-42C5-A291-95AF48062453Q91911264-91BF9253-7A87-4F58-8636-AA72095C6499Q92142832-38802489-C651-4742-87D5-B3E780EAE09BQ92278205-D16F4812-FAE2-44A7-8DF2-FF225ABB649AQ92340509-5BDFB32B-BADC-4B31-9E3E-504EEA752F73Q92467252-24613D89-BF31-49A1-991B-A3DDD3F6A68FQ92874666-D76CAD2F-E471-424B-A1FE-BDFAFFE54D03Q93037286-C5306169-A4B8-4D60-8940-3BD7FA93C55B
P50
description
researcher (ORCID 0000-0002-0392-6672)
@en
name
Na Li
@en
type
label
Na Li
@en
prefLabel
Na Li
@en
P31
P496
0000-0002-0392-6672