Aqueous Peptide-TiO2 Interfaces: Isoenergetic Binding via Either Entropically or Enthalpically Driven Mechanisms
Version 2 2024-06-06, 01:09
Version 1 2016-07-20, 00:00
journal contribution
posted on 2024-06-06, 01:09 authored by AM Sultan, ZC Westcott, ZE Hughes, JP Palafox-Hernandez, T Giesa, V Puddu, MJ Buehler, CC Perry, Tiffany WalshTiffany WalshAqueous Peptide-TiO2 Interfaces: Isoenergetic Binding via Either Entropically or Enthalpically Driven Mechanisms
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United StatesLanguage
EnglishPublication classification
C Journal article, C1 Refereed article in a scholarly journalCopyright notice
2016, American Chemical SocietyJournal
ACS Applied Materials and InterfacesVolume
8Pagination
18620-18630ISSN
1944-8244eISSN
1944-8252Issue
28Publisher
AMER CHEMICAL SOCUsage metrics
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Science & TechnologyTechnologyNanoscience & NanotechnologyMaterials Science, MultidisciplinaryScience & Technology - Other TopicsMaterials Sciencepeptidestitaniaadsorptionmolecular dynamics simulationsbiointerfacesQUARTZ-CRYSTAL MICROBALANCEAMINO-ACID-ANALOGSTIO2 110 SURFACEOXIDE SURFACESMOLECULAR-DYNAMICSINORGANIC MATERIALSTITANIA INTERFACELIQUID WATERFREE-ENERGYADSORPTIONInstitute for Frontier Materials090301 Biomaterials030406 Proteins and Peptides030603 Colloid and Surface Chemistry030704 Statistical Mechanics in Chemistry091202 Composite and Hybrid Materials970103 Expanding Knowledge in the Chemical Sciences970109 Expanding Knowledge in Engineering3406 Physical chemistry
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