about
Photoclick Hydrogels Prepared from Functionalized Cyclodextrin and Poly(ethylene glycol) for Drug Delivery and in Situ Cell Encapsulation.Thiol-ene hydrogels as desmoplasia-mimetic matrices for modeling pancreatic cancer cell growth, invasion, and drug resistance.Thiol-norbornene photo-click hydrogels for tissue engineering applicationsCell-cell communication mimicry with poly(ethylene glycol) hydrogels for enhancing beta-cell function.The performance of human mesenchymal stem cells encapsulated in cell-degradable polymer-peptide hydrogels.Knee loading reduces MMP13 activity in the mouse cartilage.Recent advances in crosslinking chemistry of biomimetic poly(ethylene glycol) hydrogelsA microwell cell culture platform for the aggregation of pancreatic β-cellsFacile preparation of photodegradable hydrogels by photopolymerization.Designing Visible Light-Cured Thiol-Acrylate Hydrogels for Studying the HIPPO Pathway Activation in Hepatocellular Carcinoma Cells.Visible light cured thiol-vinyl hydrogels with tunable degradation for 3D cell culture.PEG hydrogels for the controlled release of biomolecules in regenerative medicine.Functional PEG-peptide hydrogels to modulate local inflammation induced by the pro-inflammatory cytokine TNFalpha.On-resin peptide macrocyclization using thiol-ene click chemistry.PEG hydrogels formed by thiol-ene photo-click chemistry and their effect on the formation and recovery of insulin-secreting cell spheroidsDegradable thiol-acrylate hydrogels as tunable matrices for three-dimensional hepatic culture.The influence of matrix degradation and functionality on cell survival and morphogenesis in PEG-based hydrogels.Cross-linking and degradation of step-growth hydrogels formed by thiol-ene photoclick chemistry.Interfacial thiol-ene photoclick reactions for forming multilayer hydrogels.Controlling Affinity Binding with Peptide-Functionalized Poly(ethylene glycol) Hydrogels.Visible light-initiated interfacial thiol-norbornene photopolymerization for forming islet surface conformal coatingAffinity peptides protect transforming growth factor beta during encapsulation in poly(ethylene glycol) hydrogels.Salubrinal reduces expression and activity of MMP13 in chondrocytes.Bifunctional monolithic affinity hydrogels for dual-protein delivery.Orthogonal enzymatic reactions for rapid crosslinking and dynamic tuning of PEG-peptide hydrogels.Improving gelation efficiency and cytocompatibility of visible light polymerized thiol-norbornene hydrogels via addition of soluble tyrosine.Modular and Adaptable Tumor Niche Prepared from Visible Light Initiated Thiol-Norbornene Photopolymerization.Metal-chelating affinity hydrogels for sustained protein release.Dynamic PEG-Peptide Hydrogels via Visible Light and FMN-Induced Tyrosine DimerizationDynamic control of hydrogel crosslinking via sortase-mediated reversible transpeptidationClickable modular polysaccharide nanoparticles for selective cell-targetingDesigner hydrogels: Shedding light on the physical chemistry of the pancreatic cancer microenvironment
P50
Q33744561-6451A948-93BC-4F9E-8531-500AD8AC0DD4Q34183997-9B38F617-79E1-475A-A01B-C0E5741D5BC6Q34792325-AB641F6B-C1F4-43B6-A6B5-8A53DDADA6FBQ34835531-7E88BF30-F651-4C3A-B7E8-739015473118Q34903779-A074FD24-28AB-485E-A42A-51B1AB8E1C67Q35030282-EA4C5881-7C7C-45C4-98B9-706F03559280Q35653922-196D9E84-1F71-4B2B-936A-8C38D8C55340Q36106758-AB86B46E-6B8B-488A-88DA-5A8F72F54EE0Q37037302-9A6D722F-69C8-4B6A-ABB5-D14EAA8DFE10Q37282950-552FDC63-40C1-4ACA-8542-B012665FF603Q37341460-8B9F208D-74B9-4517-8C71-2F039B7463F0Q37352861-AFFC5EF7-0BDA-4551-892E-59A5ACDDCFC3Q37363291-C00A78AF-1D81-4908-BCE9-F339AF3EBC92Q37671734-26EB5579-E59B-4B74-9A92-7AB4AFA50061Q38738805-9E439085-09AD-4021-823A-7C59A19D76B7Q39052236-4EFDE88A-BA3D-4437-A116-6D10AB08A55EQ39138193-36FB310B-2DB5-45D0-A356-A9CCAC55496BQ39465688-6D24BA96-09DC-4F9D-A8F2-FFF6BBA6BCBFQ39810795-9978A8CA-BA18-4514-AF36-458D827325CFQ41840048-F8F25CD1-46F4-4B92-8609-5CD5A1FDAF20Q42597477-3C7A56EC-5F3A-4C81-8798-8394CD5BB2C0Q42714688-919059B4-99D6-467D-A739-76552F9B1286Q43432593-510D80BB-F549-4EF2-9A6E-9C989185F0FFQ46766674-BB2F4F8A-6DE1-425C-AB20-3F1B80FB04DDQ47587413-8C0F5353-10D1-4687-9074-734A678A13C8Q48264501-CDB47EA3-226B-4207-A53D-65BFEB122C8DQ49731574-D1C18022-603C-42AA-ACC4-837270E8DFCCQ50676220-52734C73-F704-49A9-82E3-2E2630122EC4Q58120557-1FD83596-B4B7-4364-AC5E-31E6032633B7Q58573247-3C5E202E-27F5-4EA4-BF4F-ED88834825EBQ89764199-B3C47B48-BE97-4B6C-BB07-FDD11AB39F60Q91005219-B0C98582-702E-4989-8EB5-006A94EE2B96
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Chien-Chi Lin
@ast
Chien-Chi Lin
@en
Chien-Chi Lin
@es
Chien-Chi Lin
@nl
Chien-Chi Lin
@sl
type
label
Chien-Chi Lin
@ast
Chien-Chi Lin
@en
Chien-Chi Lin
@es
Chien-Chi Lin
@nl
Chien-Chi Lin
@sl
prefLabel
Chien-Chi Lin
@ast
Chien-Chi Lin
@en
Chien-Chi Lin
@es
Chien-Chi Lin
@nl
Chien-Chi Lin
@sl
P108
P106
P108
P31
P496
0000-0002-4175-8796