A fully microfabricated carbon nanotube three-electrode system on glass substrate for miniaturized electrochemical biosensors

Biomedical Microdevices

Volumn 14, Issue 3, 2012, Pages 613-624

  Kim, Joon Hyub ^a   Lee, Jun Yong ^a   Jin, Joon Hyung ^a   Park, Chan Won ^b   Lee, Cheol Jin ^a   Min, Nam Ki ^a  

^a Korea University   (South Korea)

^b Kangwon National University   (South Korea)

Author keywords

Biosensor; Plasma functionalization; Spray coated SWCNT; Three electrode system

Indexed keywords

AG/AGCL; BIOINTERFACES; ELECTROCHEMICAL ACTIVITIES; ELECTROCHEMICAL BIOSENSOR; ELISA ASSAY; ENZYME LINKED IMMUNOSORBENT ASSAY; GEOMETRIC SURFACE AREA; GLASS SUBSTRATES; GOOD STABILITY; HIGH SENSITIVITY; HYDROGEN PEROXIDE DECOMPOSITION; INTEGRATION PROCESS; LEGIONELLA; LOWER DETECTION LIMIT; MEDIATOR SYSTEMS; MICROFABRICATED; ORGANIC RESIDUES; PLASMA FUNCTIONALIZATION; PROCESS DEVELOPMENT; REFERENCE ELECTRODES; SPECTROSCOPIC TECHNIQUE; SPRAY COATING; SPRAY-COATED SWCNT; TETRAMETHYLBENZIDINE; THREE ELECTRODE-SYSTEM; WORKING ELECTRODE;

BIOSENSORS; CHRONOAMPEROMETRY; CYCLIC VOLTAMMETRY; HYDROGEN PEROXIDE; IMMUNOSENSORS; INTEGRATION; MICROFABRICATION; OPTIMIZATION; PLASMA ETCHING; SINGLE-WALLED CARBON NANOTUBES (SWCN); SUBSTRATES;

ELECTROCHEMICAL ELECTRODES;

HYDROGEN PEROXIDE; SINGLE WALLED NANOTUBE; TETRAMETHYLBENZIDINE;

AMPEROMETRIC BIOSENSOR; ARTICLE; CARBON DIOXIDE ELECTRODE; CATALYSIS; COMPOSITE MATERIAL; CYCLIC POTENTIOMETRY; DECOMPOSITION; ELECTROCHEMISTRY; ENZYME LINKED IMMUNOSORBENT ASSAY; EQUIPMENT DESIGN; IMMUNOSENSOR; LEGIONELLA PNEUMOPHILA; MATERIAL COATING; NANOFABRICATION; PRIORITY JOURNAL; PROCESS OPTIMIZATION; SPECTROSCOPY; SYSTEM ANALYSIS;

BENZIDINES; BIOSENSING TECHNIQUES; ENZYME-LINKED IMMUNOSORBENT ASSAY; EQUIPMENT DESIGN; GLASS; HYDROGEN PEROXIDE; LEGIONELLA PNEUMOPHILA; LIMIT OF DETECTION; MICROELECTRODES; MICROSCOPY, ATOMIC FORCE; MICROTECHNOLOGY; NANOTUBES, CARBON; PHOTOELECTRON SPECTROSCOPY; SPECTRUM ANALYSIS, RAMAN;

LEGIONELLA PNEUMOPHILA;

EID: 84862827122     PISSN: 13872176     EISSN: 15728781     Source Type: Journal    
DOI: 10.1007/s10544-012-9640-0     Document Type: Article

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