Phospholipid monolayer coated microfabricated electrodes to model the interaction of molecules with biomembranes

Electrochimica Acta

Volumn 54, Issue 22, 2009, Pages 4954-4962

  Coldrick, Zachary ^a   Steenson, Paul ^a   Millner, Paul ^a   Davies, Matthew ^b   Nelson, Andrew ^a  

^a UNIVERSITY OF LEEDS   (United Kingdom)

^b Health and Safety Laboratories   (United Kingdom)

Author keywords

Biomembrane model; Mercury; Microfabrication; Phospholipid monolayers; Rapid cyclic voltametry

Indexed keywords

ACTIVE DRUGS; AG/AGCL; ATOMICALLY SMOOTH SURFACE; BIOMEMBRANE; BIOMEMBRANE MODEL; BIOMEMBRANES; CAPACITANCE-POTENTIAL; CATHODIC POTENTIALS; COATED ELECTRODES; DESORPTION PROCESS; DRUG SCREENING; DYNAMIC SURFACE; ELECTRODE COATING; ELECTRODE SURFACES; FLOW CELLS; MECHANICALLY STABLE; MERCURY; MICROFABRICATED ELECTRODES; ONLINE MONITORING; ORGANIC FILMS; ORGANIC LAYERS; OVER POTENTIAL; PHOSPHOLIPID BILAYER; PHOSPHOLIPID MONOLAYERS; PHOSPHOLIPID-COATING; POTENTIAL OF ZERO CHARGE; RAPID CYCLIC VOLTAMETRY; REAL TIME; SELF-ASSEMBLED; SURFACE CONTAMINATIONS; WORKING ELECTRODE;

ADSORPTION; CAPACITANCE; COATED WIRE ELECTRODES; COATINGS; CYCLIC VOLTAMMETRY; DESORPTION; DIELECTRIC PROPERTIES; DRUG INTERACTIONS; ELECTRODES; ELECTRON ENERGY LEVELS; MERCURY (METAL); MICROANALYSIS; MICROFABRICATION; MICROMACHINING; MOLECULES; PLATINUM; SELF ASSEMBLED MONOLAYERS; VOLTAGE MEASUREMENT;

PHOSPHOLIPIDS;

EID: 65749114483     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2009.02.095     Document Type: Article

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