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{
  "pmid": "29435550",
  "doi": "10.1039/c7bm01124e",
  "abstract": "With the development of nanotechnology, functional amyloid materials are drawing increasing attention, and numerous remarkable applications are emerging. Amyloids, defined as a class of supramolecular assemblies of misfolded proteins or peptides into β-sheet fibrils, have evolved in many new respects and offer abundant chemical/biological functions. These proteinaceous micro/nano-structures provide excellent biocompatibility, rich phase behaviours, strong mechanical properties, and stability at interfaces not only in nature but also in functional materials, displaying versatile interactions with surfaces/interfaces that have been widely adopted in bioadhesion, synthetic biology, and composites. Overall, functional amyloids at surfaces/interfaces have excellent potential applications in next-generation biotechnology and biomaterials.",
  "journal": "Biomaterials science",
  "year": 2018,
  "authors": "[\"Li, Chen\", \"Qin, Rongrong\", \"Liu, Ruirui\", \"Miao, Shuting\", \"Yang, Peng\"]",
  "url": "https://pubmed.ncbi.nlm.nih.gov/29435550/",
  "external_ids": {
    "pmid": "29435550"
  },
  "citation_count": 0
}