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Volumn 338, Issue 1, 2009, Pages 73-81
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Evaluation of adhesion force between functionalized microbeads and protein-coated stainless steel using shear-flow-induced detachment
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Author keywords
Adhesion force; Detachment; Functionalized microbead; Hydrodynamic method; Modelling; Stainless steel
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Indexed keywords
316 L STAINLESS STEEL;
ADHESION FORCE;
ADHESION FORCES;
BIOFILM FORMATION;
CHEMICAL GROUP;
COVALENT BINDING;
DETACHMENT;
FLOW CHAMBERS;
FUNCTIONALIZED;
FUNCTIONALIZED MICROBEAD;
HIGH REACTIVITY;
HYDRODYNAMIC FORCES;
HYDROPHILIC SURFACES;
MARINE ENVIRONMENT;
MICROBEADS;
MODELLING;
NANO SCALE;
NATIVE FORMS;
SPHERICAL MICROBEADS;
THEORETICAL MODELLING;
THEORETICAL MODELS;
ADHESION;
AMINES;
AMINO ACIDS;
BIOPOLYMERS;
BODY FLUIDS;
CHARGE TRANSFER;
CORROSION RESISTANT ALLOYS;
FLUID DYNAMICS;
FUNCTIONAL GROUPS;
HYDRODYNAMICS;
ION EXCHANGE;
NANOSTRUCTURED MATERIALS;
ORGANIC ACIDS;
SHEAR FLOW;
SURFACE PROPERTIES;
STAINLESS STEEL;
AMIDE;
BIOPOLYMER;
BOVINE SERUM ALBUMIN;
HYDROXIDE;
POLYAMINOACID;
PROTEIN;
STAINLESS STEEL;
ADHESION;
ARTICLE;
BIOFILM;
CHEMICAL MODIFICATION;
CONTROLLED STUDY;
COVALENT BOND;
HYDRODYNAMICS;
HYDROPHILICITY;
MACROMOLECULE;
MARINE ENVIRONMENT;
MATERIAL COATING;
MOLECULAR INTERACTION;
PHYSICAL CHEMISTRY;
PRIORITY JOURNAL;
SHEAR FLOW;
SHEAR STRESS;
THEORETICAL MODEL;
TORQUE;
ZETA POTENTIAL;
ADSORPTION;
MICROSPHERES;
PROTEINS;
STAINLESS STEEL;
SURFACE PROPERTIES;
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EID: 68449083726
PISSN: 00219797
EISSN: None
Source Type: Journal
DOI: 10.1016/j.jcis.2009.06.019 Document Type: Article |
Times cited : (15)
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References (54)
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