| scholarly article | Q13442814 |
| P50 | author | Yang Sun | Q86903893 |
| P2093 | author name string | Wei Wang | |
| Ying Li | |||
| Yi Cao | |||
| Meng Qin | |||
| P2860 | cites work | Cell mechanics and the cytoskeleton | Q24601132 |
| Computational design of water-soluble α-helical barrels | Q27695728 | ||
| Matrix elasticity directs stem cell lineage specification | Q27860761 | ||
| The amyloid hypothesis of Alzheimer's disease: progress and problems on the road to therapeutics | Q27860914 | ||
| Protein misfolding, functional amyloid, and human disease | Q28131732 | ||
| Assembly of Fibronectin Extracellular Matrix | Q30538938 | ||
| Imaging enzyme-triggered self-assembly of small molecules inside live cells | Q30559697 | ||
| Chemically programmed self-sorting of gelator networks | Q30588377 | ||
| Responsive hydrogels from the intramolecular folding and self-assembly of a designed peptide | Q30873697 | ||
| Spontaneous assembly of a self-complementary oligopeptide to form a stable macroscopic membrane | Q34058519 | ||
| Interplay of matrix stiffness and protein tethering in stem cell differentiation. | Q34232062 | ||
| Hydrogels for tissue engineering | Q34440622 | ||
| Role of intermolecular forces in defining material properties of protein nanofibrils | Q34728278 | ||
| Rheological properties of peptide-based hydrogels for biomedical and other applications | Q35016082 | ||
| Characterization of the nanoscale properties of individual amyloid fibrils | Q35127474 | ||
| Effect of sequence variation on the mechanical response of amyloid fibrils probed by steered molecular dynamics simulation | Q35743222 | ||
| Self-assembling peptide scaffolds for regenerative medicine | Q35968451 | ||
| Amyloids: not only pathological agents but also ordered nanomaterials | Q37138422 | ||
| Mechanical properties of cellularly responsive hydrogels and their experimental determination | Q37475567 | ||
| Building fibrous biomaterials from alpha-helical and collagen-like coiled-coil peptides | Q37679115 | ||
| Nuclear lamin-A scales with tissue stiffness and enhances matrix-directed differentiation | Q37686106 | ||
| Cell death versus cell survival instructed by supramolecular cohesion of nanostructures | Q37696614 | ||
| Dipeptide and Tripeptide Conjugates as Low‐Molecular‐Weight Hydrogelators | Q37809820 | ||
| Nanomechanics of functional and pathological amyloid materials. | Q37908990 | ||
| Designer nanomaterials using chiral self-assembling peptide systems and their emerging benefit for society | Q38013053 | ||
| The importance of the self-assembly process to control mechanical properties of low molecular weight hydrogels. | Q38097648 | ||
| Ultrastructure of protrusive actin filament arrays | Q38103644 | ||
| Self-assembly of short peptides to form hydrogels: design of building blocks, physical properties and technological applications | Q38130069 | ||
| Molecular tools for the construction of peptide-based materials. | Q38180601 | ||
| Mechanics of biological networks: from the cell cytoskeleton to connective tissue. | Q38197939 | ||
| Peptide nanotubes | Q38219627 | ||
| Design of nanostructures based on aromatic peptide amphiphiles | Q38246910 | ||
| Dissecting the structural determinants for the difference in mechanical stability of silk and amyloid beta-sheet stacks | Q39301281 | ||
| Short-peptide-based molecular hydrogels: novel gelation strategies and applications for tissue engineering and drug delivery. | Q39583024 | ||
| Multifunctional biohybrid hydrogels for cell culture and controlled drug release. | Q42816412 | ||
| Surface-induced hydrogelation inhibits platelet aggregation. | Q42827895 | ||
| Using supramolecular hydrogels to discover the interactions between proteins and molecular nanofibers of small molecules. | Q43066969 | ||
| Casting Metal Nanowires Within Discrete Self-Assembled Peptide Nanotubes | Q44417396 | ||
| The physical basis of how prion conformations determine strain phenotypes | Q46092862 | ||
| Photo-cross-linking approach to engineering small tyrosine-containing peptide hydrogels with enhanced mechanical stability | Q46964183 | ||
| Using a kinase/phosphatase switch to regulate a supramolecular hydrogel and forming the supramolecular hydrogel in vivo. | Q46967689 | ||
| Self-assembly-induced far-red/near-infrared fluorescence light-up for detecting and visualizing specific protein-Peptide interactions. | Q50481072 | ||
| An enzyme-assisted nanoparticle crosslinking approach to enhance the mechanical strength of peptide-based supramolecular hydrogels. | Q51790796 | ||
| Spatial persistence of angular correlations in amyloid fibrils. | Q51938864 | ||
| Interfacial self-assembly leads to formation of fluorescent nanoparticles for simultaneous bacterial detection and inhibition. | Q53617457 | ||
| Intracellular hydrogelation of small molecules inhibits bacterial growth. | Q53971702 | ||
| In Vitro and In Vivo Enzymatic Formation of Supramolecular Hydrogels Based on Self-Assembled Nanofibers of a β-Amino Acid Derivative | Q59279635 | ||
| Intracellular Enzymatic Formation of Nanofibers Results in Hydrogelation and Regulated Cell Death | Q59279636 | ||
| Fmoc-Diphenylalanine Self Assembles to a Hydrogel via a Novel Architecture Based on π–π Interlocked β-Sheets | Q114738265 | ||
| P433 | issue | 13 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 5638-5642 | |
| P577 | publication date | 2015-03-01 | |
| P1433 | published in | Nanoscale | Q3335756 |
| P1476 | title | Mechanics of single peptide hydrogelator fibrils | |
| P478 | volume | 7 |
| Q47274810 | Isomeric control of the mechanical properties of supramolecular filament hydrogels |
| Q42606047 | Studies of chain substitution caused sub-fibril level differences in stiffness and ultrastructure of wildtype and oim/oim collagen fibers using multifrequency-AFM and molecular modeling |
Search more.