De Novo Designed Peptide and Protein Hairpins Self-assemble into Sheets and Nanoparticles.
Functionalized peptide hydrogels as tunable extracellular matrix mimics for biological applications
Biomimetic Self-Assembling Peptide Hydrogels for Tissue Engineering Applications | SpringerLink
Biomaterials for 4D stem cell culture. - Abstract - Europe PMC
Nanoscale assemblies and their biomedical applications | Journal of The Royal Society Interface
The Physical Chemistry for the Self-assembly of Peptide Hydrogels
Rational design and application of responsive α -helical peptide hydrogels | Nature Materials
Frontiers | Modeling the Three-Dimensional Bioprinting Process of β-Sheet Self-Assembling Peptide Hydrogel Scaffolds | Medical Technology
De Novo Designed Peptide and Protein Hairpins Self-assemble into Sheets and Nanoparticles.
Functionalized peptide hydrogels as tunable extracellular matrix mimics for biological applications
Biomaterials for 4D stem cell culture. - Abstract - Europe PMC
Improving cartilage phenotype from differentiated pericytes in tunable peptide hydrogels
PDF) De Novo Designed Peptide and Protein Hairpins Self-assemble into Sheets and Nanoparticles
Rational design and application of responsive alpha-helical peptide hydrogels. - Abstract - Europe PMC
Rational design and application of responsive α -helical peptide hydrogels | Nature Materials
Improving cartilage phenotype from differentiated pericytes in tunable peptide hydrogels | Scientific Reports
Rational design and application of responsive α -helical peptide hydrogels | Nature Materials
Silk fibroin/collagen protein hybrid cell-encapsulating hydrogels with tunable gelation and improved physical and biological properties - ScienceDirect
De Novo Designed Peptide and Protein Hairpins Self-assemble into Sheets and Nanoparticles.
Silk fibroin/collagen protein hybrid cell-encapsulating hydrogels with tunable gelation and improved physical and biological properties - ScienceDirect
Biomimetic Self-Assembling Peptide Hydrogels for Tissue Engineering Applications | SpringerLink
