Molecular structure influences the stability of membrane penetrating biointerfaces

Nano Letters

Volumn 11, Issue 5, 2011, Pages 2066-2070

  Almquist, Benjamin D ^a   Melosh, Nicholas A ^a  

^a Stanford University   (United States)

Author keywords

Atomic force microscopy; biological interfaces; biophysics; lipid membranes

Indexed keywords

BIOINTERFACES; BIOLOGICAL INTERFACE; CRYSTALLINITIES; HYDROPHILIC SURFACES; INORGANIC STRUCTURE; INTERFACE STABILITIES; INTERFACE STRENGTH; LIPID MEMBRANES; MOLECULAR PROPERTIES; NANO SCALE; NANOSCALE PATTERNING; SELF-ASSEMBLING; TRANS-MEMBRANE PROTEINS;

ATOMIC FORCE MICROSCOPY; BIOCHEMISTRY; BIOLOGICAL MEMBRANES; CYTOLOGY; LIPIDS; LITHOGRAPHY; MONOLAYERS; NANOSTRUCTURED MATERIALS; NANOTECHNOLOGY; SURFACE CHEMISTRY;

HYDROPHOBICITY;

BIOMATERIAL; LIPID; MEMBRANE LIPID; NANOMATERIAL;

ARTICLE; ATOMIC FORCE MICROSCOPY; BIOMIMETICS; CHEMICAL STRUCTURE; CHEMISTRY; LIPID BILAYER; MATERIALS TESTING; MECHANICAL STRESS; MEMBRANE; METABOLISM; METHODOLOGY; NANOTECHNOLOGY; PROTEIN SECONDARY STRUCTURE; STATISTICAL MODEL;

BIOCOMPATIBLE MATERIALS; BIOMIMETICS; LIPID BILAYERS; LIPIDS; MATERIALS TESTING; MEMBRANE LIPIDS; MEMBRANES; MICROSCOPY, ATOMIC FORCE; MODELS, STATISTICAL; MOLECULAR STRUCTURE; NANOSTRUCTURES; NANOTECHNOLOGY; PROTEIN STRUCTURE, SECONDARY; STRESS, MECHANICAL;

EID: 79955886103     PISSN: 15306984     EISSN: 15306992     Source Type: Journal    
DOI: 10.1021/nl200542m     Document Type: Article

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