| scholarly article | Q13442814 |
| P356 | DOI | 10.1039/C2MB05435C |
| P698 | PubMed publication ID | 22294383 |
| P50 | author | Toshiki Sawada | Q43096841 |
| Hisakazu Mihara | Q50683735 | ||
| P2093 | author name string | Hisakazu Mihara | |
| Toshiki Sawada | |||
| P2860 | cites work | Extensive neurite outgrowth and active synapse formation on self-assembling peptide scaffolds | Q24683753 |
| Selection of peptides with semiconductor binding specificity for directed nanocrystal assembly | Q30882062 | ||
| Self-assembling short oligopeptides and the promotion of angiogenesis. | Q51530076 | ||
| A Hexapeptide Motif that Electrostatically Binds to the Surface of Titanium | Q51796187 | ||
| Isolation of peptides that can recognize syndiotactic polystyrene. | Q54441664 | ||
| Construction and Control of Self-Assembly of Amyloid and Fibrous Peptides | Q57907510 | ||
| Construction of biotinylated peptide nanotubes for arranging proteins | Q57907512 | ||
| Peptides with selective affinity for carbon nanotubes | Q30889592 | ||
| Ordering of quantum dots using genetically engineered viruses | Q31051076 | ||
| Engineered iron oxide-adhesion mutants of the Escherichia coli phage lambda receptor | Q31103801 | ||
| Biomimetic synthesis and patterning of silver nanoparticles. | Q33186261 | ||
| Affinity selection of peptide phage libraries against single-wall carbon nanohorns identifies a peptide aptamer with conformational variability | Q33207004 | ||
| Biomaterials functionalization using a novel peptide that selectively binds to a conducting polymer | Q33215119 | ||
| A peptide motif recognizing a polymer stereoregularity. | Q33224477 | ||
| Peptide motifs that recognize differences in polymer-film surfaces. | Q33265856 | ||
| Selection and analysis of solid-binding peptides | Q33290192 | ||
| Biological selection of peptides for poly(l-lactide) substrates | Q33337446 | ||
| Peptides recognize photoresponsive targets | Q33418465 | ||
| Affinity-based screening of peptides recognizing assembly states of self-assembling peptide nanomaterials | Q33504762 | ||
| Self-assembly of peptide amphiphiles: from molecules to nanostructures to biomaterials | Q34066735 | ||
| Self-assembling peptide hydrogel fosters chondrocyte extracellular matrix production and cell division: implications for cartilage tissue repair | Q34098590 | ||
| Fabrication of novel biomaterials through molecular self-assembly | Q34266535 | ||
| Entrapment of migrating hippocampal neural cells in three-dimensional peptide nanofiber scaffold | Q34323230 | ||
| Design of nanostructured biological materials through self-assembly of peptides and proteins | Q35019406 | ||
| Molecular biomimetics: nanotechnology through biology | Q35210024 | ||
| Self-assembling peptides and proteins for nanotechnological applications | Q35863917 | ||
| Peptides as novel smart materials | Q36206942 | ||
| Direct selection of antibodies that coordinate metals from semisynthetic combinatorial libraries | Q36410304 | ||
| Peptide-based fibrous biomaterials: Some things old, new and borrowed. | Q36618415 | ||
| Peptide self-assembly at the nanoscale: a challenging target for computational and experimental biotechnology. | Q36767226 | ||
| Designer self-assembling Peptide nanofiber scaffolds for study of 3-d cell biology and beyond | Q37013900 | ||
| Designing peptide based nanomaterials. | Q37117590 | ||
| Designer self-assembling peptide nanofiber biological materials | Q37762454 | ||
| Self-Assembly and Biomaterials | Q38490697 | ||
| Self-assembly of a beta-sheet protein governed by relief of electrostatic repulsion relative to van der Waals attraction. | Q39412928 | ||
| Peptide nanofibers modified with a protein by using designed anchor molecules bearing hydrophobic and functional moieties. | Q43085656 | ||
| Lymphocyte proliferation response during Eimeria tenella infection assessed by a new, reliable, nonradioactive colorimetric assay | Q43939221 | ||
| The enhancement of osteoblast growth and differentiation in vitro on a peptide hydrogel-polyHIPE polymer hybrid material | Q46284048 | ||
| Specificity and biomineralization activities of Ti-binding peptide-1 (TBP-1). | Q46284082 | ||
| Fabrication of nanofibers with uniform morphology by self-assembly of designed peptides. | Q47348821 | ||
| P433 | issue | 4 | |
| P921 | main subject | self-assembly | Q910150 |
| nanomaterial | Q967847 | ||
| P304 | page(s) | 1264-1274 | |
| P577 | publication date | 2012-02-01 | |
| P1433 | published in | Molecular BioSystems | Q3319467 |
| P1476 | title | Dense surface functionalization using peptides that recognize differences in organized structures of self-assembling nanomaterials | |
| P478 | volume | 8 |
| Q57907470 | Cell-adhesive hydrogels composed of peptide nanofibers responsive to biological ions |
| Q38056917 | Graphene and its derivatives for cell biotechnology |
| Q34610897 | Peptides as new smart bionanomaterials: molecular-recognition and self-assembly capabilities. |
| Q35039110 | Prospective identification of parasitic sequences in phage display screens |
| Q34693523 | Screening of peptides recognizing simple polycyclic aromatic hydrocarbons. |
| Q47917197 | Self-assembling peptide nanofibers promoting cell adhesion and differentiation. |
| Q38084563 | Soft materials based on designed self-assembling peptides: from design to application |
Search more.