Lithographically defined 3D nanoporous nonenzymatic glucose sensors

Biosensors and Bioelectronics

Volumn 26, Issue 8, 2011, Pages 3641-3646

  Xiao, Xiaoyin ^a   Montaño, Gabriel A ^b   Edwards, Thayne L ^a   Washburn, Cody M ^a   Brozik, Susan M ^a   Wheeler, David R ^a   Burckel, D Bruce ^a   Polsky, Ronen ^a  

^a SANDIA NATIONAL LABORATORIES   (United States)

^b LOS ALAMOS NATIONAL LABORATORY   (United States)

Author keywords

Glucose; Interference lithography; Palladium nanoflowers; Porous carbon

Indexed keywords

AMPEROMETRIC; CURRENT DECAY; DETECTION LIMITS; ELECTROCHEMICALLY ACTIVE SURFACE AREAS; GLUCOSE OXIDATION; GLUCOSE RESPONSE; INTERFERENCE LITHOGRAPHY; LIMITING CURRENT; LINEAR RANGE; NANO-POROUS; NON-ENZYMATIC; PLANAR ELECTRODE; POROUS CARBON; POROUS CARBON ELECTRODES; POROUS CARBONS; PYROLYZED PHOTORESIST FILMS; STEADY STATE;

ELECTRODES; GLUCOSE SENSORS; LITHOGRAPHY; NANOFLOWERS; OXIDATION; PHOTORESISTS; PYROLYSIS; SURFACE PROPERTIES; THREE DIMENSIONAL;

GLUCOSE;

ASCORBIC ACID; NANOPARTICLE; PALLADIUM;

ARTICLE; BIOSENSOR; CONTROLLED STUDY; CRYSTAL STRUCTURE; DESORPTION; ELECTROCHEMICAL ANALYSIS; GLUCOSE OXIDATION; GLUCOSE TRANSDUCER; PARTICLE SIZE; POTENTIOMETRY; SURFACE PROPERTY; TEMPERATURE;

ASCORBIC ACID; CATALYSIS; ELECTROCHEMICAL TECHNIQUES; ELECTRODES; GLUCOSE; NANOPORES; OXIDATION-REDUCTION; PALLADIUM;

EID: 79952814969     PISSN: 09565663     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.bios.2011.02.020     Document Type: Article

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