SCOPUS 정보 검색 플랫폼

Volumn 54, Issue , 2014, Pages 85-90

A novel pH-controlled immunosensor using hollow mesoporous silica and apoferritin combined system for target virus assay

(5) Wang, Xindong a Dong, Jing a Liu, Xinyu a Liu, Yanzhen a Ai, Shiyun a

a SHANDONG AGRICULTURAL UNIVERSITY (China)

Author keywords

Apoferritin; Electrochemical immunosensor; Hollow mesoporous silica; Ultrasensitive detection

Indexed keywords

CHEMICAL MODIFICATION; PROBES; SILICA; VIRUSES;

APOFERRITIN; COMBINED SYSTEM; ELECTROACTIVE PROBES; ELECTROCHEMICAL IMMUNOSENSORS; HOLLOW MESOPOROUS SILICA; MESOPOROUS; ULTRASENSITIVE DETECTION;

IMMUNOSENSORS;

APOFERRITIN; COPPER NANOPARTICLE; GRAPHENE; HOLLOW MESOPOROUS SILICA; QUANTUM DOT; SILICON DIOXIDE; UNCLASSIFIED DRUG;

ABSORPTION; ANTIGEN BINDING; ARTICLE; AVIAN LEUKOSIS ONCOVIRUS; CALIBRATION; CHEMICAL MODIFICATION; DESORPTION; DIFFERENTIAL PULSE VOLTAMMETRY; DISSOCIATION; ELECTROCHEMICAL IMMUNOSENSOR; ELECTRODE; ENCAPSULATION; GLASS CARBON ELECTRODE; IMMUNOSENSOR; LIMIT OF DETECTION; MATERIAL COATING; MOLECULAR STABILITY; NONHUMAN; PH; PROCESS OPTIMIZATION; QUANTITATIVE ANALYSIS; REPRODUCIBILITY; SENSITIVITY ANALYSIS; STRUCTURE ACTIVITY RELATION; SURFACE PROPERTY; TRANSMISSION ELECTRON MICROSCOPY; VIRUS DETECTION; VIRUS STRAIN; ANIMAL; AVIAN LEUKOSIS; BIRD; CHEMISTRY; DEVICES; ELECTROCHEMICAL ANALYSIS; EVALUATION STUDY; GENETIC PROCEDURES; IMMUNOASSAY; ISOLATION AND PURIFICATION; POROSITY; VIROLOGY;

ANIMALS; APOFERRITINS; AVIAN LEUKOSIS; AVIAN LEUKOSIS VIRUS; BIOSENSING TECHNIQUES; BIRDS; ELECTROCHEMICAL TECHNIQUES; HYDROGEN-ION CONCENTRATION; IMMUNOASSAY; LIMIT OF DETECTION; POROSITY; REPRODUCIBILITY OF RESULTS; SILICON DIOXIDE;

EID: 84887567793 PISSN: 09565663 EISSN: 18734235 Source Type: Journal
DOI: 10.1016/j.bios.2013.10.051 Document Type: Article

Times cited : (14)

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