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Volumn 79, Issue , 2016, Pages 685-692
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Electrochemical and bio-sensing platform based on a novel 3D Cu nano-flowers/layered MoS2 composite
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Author keywords
3D Cu nanoflowers; Biosensor; Glucose; Hydrogen peroxide; Molybdenum disulfide
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Indexed keywords
BIOSENSORS;
CARBON;
CARBON DISULFIDE;
CATALYST ACTIVITY;
CYCLIC VOLTAMMETRY;
ELECTROCHEMICAL ELECTRODES;
ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY;
ELECTRODES;
ELECTRON MICROSCOPY;
ENERGY DISPERSIVE SPECTROSCOPY;
GLASS MEMBRANE ELECTRODES;
GLUCOSE;
GLUCOSE SENSORS;
HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY;
HYDROGEN PEROXIDE;
MOLYBDENUM COMPOUNDS;
NANOPARTICLES;
NANOSENSORS;
OXIDATION;
PEROXIDES;
SCANNING ELECTRON MICROSCOPY;
TRANSMISSION ELECTRON MICROSCOPY;
X RAY DIFFRACTION;
X RAY SPECTROSCOPY;
CONSTRUCTION STAGES;
ELECTROCATALYTIC ACTIVITY;
ENERGY DISPERSIVE X RAY SPECTROSCOPY;
LIMITS OF DETECTION;
MODIFIED ELECTRODES;
MODIFIED GLASSY CARBON ELECTRODE;
MOLYBDENUM DISULFIDE;
PHYSICOCHEMICAL PROPERTY;
NANOFLOWERS;
GLUCOSE;
HYDROGEN PEROXIDE;
NANOCOMPOSITE;
NANOFLOWER LIKE COPPER MULTILAYER MOLYBDENUM DISULFIDE COMPOSITE;
UNCLASSIFIED DRUG;
COPPER;
DISULFIDE;
DRINKING WATER;
GLUCOSE BLOOD LEVEL;
MOLYBDENUM;
MOLYBDENUM DISULFIDE;
NANOMATERIAL;
AMPEROMETRY;
ARTICLE;
BLOOD SAMPLING;
CATALYSIS;
CONTROLLED STUDY;
CYCLIC POTENTIOMETRY;
ELECTROCHEMISTRY;
ELECTRODE;
GLASSY CARBON ELECTRODE;
GLUCOSE SENSOR;
LIMIT OF DETECTION;
LINEAR SYSTEM;
NANOANALYSIS;
PARTICLE SIZE;
PHYSICAL CHEMISTRY;
QUANTITATIVE ANALYSIS;
ROENTGEN SPECTROSCOPY;
SCANNING ELECTRON MICROSCOPY;
SENSITIVITY ANALYSIS;
STRUCTURE ANALYSIS;
TRANSMISSION ELECTRON MICROSCOPY;
X RAY DIFFRACTION;
ANALYSIS;
CHEMISTRY;
DEVICES;
ELECTROCHEMICAL ANALYSIS;
GENETIC PROCEDURES;
GLUCOSE BLOOD LEVEL;
HUMAN;
ULTRASTRUCTURE;
BIOSENSING TECHNIQUES;
BLOOD GLUCOSE;
COPPER;
DISULFIDES;
DRINKING WATER;
ELECTROCHEMICAL TECHNIQUES;
ELECTRODES;
HUMANS;
HYDROGEN PEROXIDE;
LIMIT OF DETECTION;
MOLYBDENUM;
NANOSTRUCTURES;
X-RAY DIFFRACTION;
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EID: 84953252797
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2015.12.072 Document Type: Article |
Times cited : (80)
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References (40)
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