SCOPUS 정보 검색 플랫폼

Volumn 67, Issue , 2015, Pages 769-774

Evaluation of direct versus multi-layer passivation and capture chemistries for nanoparticle-based biosensor applications

(5) Sanjaya, K C a Ranzoni, Andrea a Watterson, Daniel a Young, Paul a Cooper, Matthew A a

a UNIVERSITY OF QUEENSLAND (Australia)

Author keywords

Biosensor; Coupling chemistry; Dengue; Immunoassay; Nanoparticle; Paramagnetic; Surface chemistry

Indexed keywords

BIOASSAY; BIOSENSORS; BODY FLUIDS; COPPER; FLUORESCENCE; IMMUNOLOGY; NUCLEIC ACIDS; PARAMAGNETISM; PASSIVATION; SURFACE CHEMISTRY;

COUPLING CHEMISTRY; DENGUE; FLUORESCENT NANOPARTICLES; IMMUNOASSAY; NANOPARTICLE FUNCTIONALIZATION; PARAMAGNETIC; SENSITIVITY AND SPECIFICITY; SURFACE FUNCTIONALIZATION;

NANOPARTICLES;

BIOLOGICAL MARKER; BUFFER; COPPER; CYANAMIDE; MALEIMIDE; NANOPARTICLE; NONSTRUCTURAL PROTEIN 1; THIOL; CARBOHYDRATE; LIPID; NUCLEIC ACID; PROTEIN; THIOL DERIVATIVE;

ARTICLE; BIOSENSOR; CLICK; DENGUE; FLOW CYTOMETER; HUMAN; IMMUNOASSAY; MOLECULAR DYNAMICS; MOLECULAR PROBE; NANOFABRICATION; NONHUMAN; PARTICLE SIZE; PROCESS OPTIMIZATION; QUANTITATIVE ANALYSIS; SENSITIVITY AND SPECIFICITY; SERUM; SURFACE PROPERTY; CHEMISTRY; CLICK CHEMISTRY; DIAGNOSTIC USE; FLUORESCENCE; GENETIC PROCEDURES;

BIOSENSING TECHNIQUES; CARBOHYDRATES; CLICK CHEMISTRY; FLUORESCENCE; HUMANS; IMMUNOASSAY; LIPIDS; NANOPARTICLES; NUCLEIC ACIDS; PROTEINS; SENSITIVITY AND SPECIFICITY; SULFHYDRYL COMPOUNDS;

EID: 84922327017 PISSN: 09565663 EISSN: 18734235 Source Type: Journal
DOI: 10.1016/j.bios.2014.09.048 Document Type: Article

Times cited : (8)

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