about
Building biomedical materials using photochemical bond cleavage.Tissue-Integratable and Biocompatible Photogelation by the Imine Crosslinking Reaction.Anticancer drug release from a mesoporous silica based nanophotocage regulated by either a one- or two-photon process.Physiological pH-dependent gelation for 3D printing based on the phase separation of gelatin and oxidized dextran.Integration of stem cell-derived exosomes with in situ hydrogel glue as a promising tissue patch for articular cartilage regeneration.Coumarin Photocages Modified with an Electron-Rich Styryl Moiety at the 3-Position: Long Wavelength Excitation, Rapid Photolysis and Photobleaching.A well-defined unimolecular channel facilitates chloride transport.Intracellular thiols and photo-illumination sequentially activate doubly locked molecular probes for long-term cell highlighting and tracking with precise spatial accuracy.A postoperative anti-adhesion barrier based on photoinduced imine-crosslinking hydrogel with tissue-adhesive ability.Oligo(aryl-triazole)s CHCl- interactions guide chloride efficient and selective transmembrane transport.Semiconductor quantum dots photosensitizing release of anticancer drug.Visible light controls cell adhesion on a photoswitchable biointerface.An in situ photocrosslinkable platelet rich plasma - Complexed hydrogel glue with growth factor controlled release ability to promote cartilage defect repair.Target-activated coumarin phototriggers specifically switch on fluorescence and photocleavage upon bonding to thiol-bearing proteinSequential control over thiol click chemistry by a reversibly photoactivated thiol mechanism of spirothiopyranHighly discriminating photorelease of anticancer drugs based on hypoxia activatable phototrigger conjugated chitosan nanoparticlesPhotoreleasable thiol chemistry for facile and efficient bioconjugationDevelopment of Acrylamide-Based Rapid and Multicolor Fluorogenic Probes for High Signal-to-Noise Live Cell Imaging
P50
Q38345484-EF7D3F88-F787-4DA1-A436-8E93C3919FFBQ38796962-00377FD6-F797-4A11-8C88-4FE9BFBDC2E3Q39672192-74099131-B911-4218-BACC-C4E062761301Q47339332-0C209B7B-E7B3-4AB1-B57A-93BC971744C7Q48117296-8D4821CA-EDA8-4DEC-9F6F-BE4E93A7EC3DQ49988084-5B02BC08-F56C-48C5-94AF-5B571905DB6FQ50016047-429280D5-D2DD-438D-93BD-797293B72723Q50221343-B5736E01-0F0D-4D0A-BE0B-0974E64AC91DQ50228627-383CB1AE-6E2C-40D6-902A-F1D8B20CD1ECQ51114580-3314795C-C9D1-479E-BCB4-D572D655BE30Q53257262-3D845090-DCCC-4447-B6A4-F7E53603FEC8Q53684601-C17478E3-CB62-49AA-A871-05F45AE92189Q54240216-22A1CDC8-F567-46DA-98AD-62EC616A6466Q83581772-5758D091-0AB0-4510-BBBE-9120E0FD2DA8Q85955468-B303F10D-AC7B-498F-A27E-43EF4255C7AFQ86097471-D9927FDF-A57B-4216-9DB0-05FC27934C6CQ86946984-E3D45F6F-510C-4F1A-A8DC-9CE1976BCB2DQ90634128-33521F2C-4112-4493-BFFE-80101239FA00
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Qiuning Lin
@ast
Qiuning Lin
@en
Qiuning Lin
@es
Qiuning Lin
@nl
type
label
Qiuning Lin
@ast
Qiuning Lin
@en
Qiuning Lin
@es
Qiuning Lin
@nl
prefLabel
Qiuning Lin
@ast
Qiuning Lin
@en
Qiuning Lin
@es
Qiuning Lin
@nl
P108
P106
P31
P496
0000-0002-9418-9590