Advances in biosensors: principle, architecture and applications
Advances in biosensors: principle, architecture and applications
Advances in biosensors: principle, architecture and applications
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Gámiz-gracia L, García-campa AM, Huertas-pérez JF, Lara FJ. Chemilum<strong>in</strong>escence<br />
detection <strong>in</strong> liquid chromatography : Applications to cl<strong>in</strong>ical , pharmaceutical ,<br />
environmental <strong>and</strong> food analysis — A review. Anal Chim Acta. 640: 7–28, 2009.<br />
Glynn B, O’Connor L. Nucleic Acid Diagnostic Biosensors. In Zourob M (ed): Recognition<br />
receptors <strong>in</strong> <strong>biosensors</strong>. Spr<strong>in</strong>ger, New York 2010, pp. 343-364.<br />
Guo Z, Yang F, Zhang L, Zheng X. Electrogenerated chemilum<strong>in</strong>escence energy transfer<br />
for the label-free detection of DNA. Sens Actuators B Chem. 177: 316–321, 2013.<br />
Grieshaber D, MacKenzie R, Voros J, Reimhult E. Electrochemical Biosensors - Sensor<br />
Pr<strong>in</strong>ciples <strong>and</strong> Architectures. Sensors. 8: 1400–1458, 2008.<br />
Grubor NM, Sh<strong>in</strong>ar R, Jankowiak R, Porter MD, Small GJ. Novel biosensor chip for<br />
simultaneous detection of DNA-carc<strong>in</strong>ogen adducts with low-temperature fluorescence.<br />
Biosens Bioelectron. 19: 547–556, 2004.<br />
He Y, Zhang S, Zhang X, Baloda M, Gurung AS, Xu H, Zhang X, Liu G. Ultrasensitive<br />
nucleic acid biosensor based on enzyme-gold nanoparticle dual label <strong>and</strong> lateral flow<br />
strip biosensor. Biosens Bioelectron. 26: 2018–2024, 2011.<br />
Hnaie<strong>in</strong> M, Hassen WM, Abdelghani A, Fournier-Wirth C, Coste J, Bessueille F, Leonard<br />
D, Jaffrezic-Renault N. A conductometric immunosensor based on functionalized<br />
magnetite nanoparticles for E. coli detection. Electrochem Commun. 10: 1152–1154,<br />
2008.<br />
Holford TRJ, Davis F, Higson SPJ. Recent trends <strong>in</strong> antibody based sensors. Biosens<br />
Bioelectron. 34: 12–24, 2012.<br />
Homola J, Yee SS, Myszka D. Surface plasmon resonance <strong>biosensors</strong>. In Ligler F, Taitt C<br />
(ed): Optical <strong>biosensors</strong>: today <strong>and</strong> tomorrow. Elsevier, Amsterdam 2008, pp. 185-242.<br />
Hong B, Kang KA. Biocompatible, nanogold-particle fluorescence enhancer for<br />
fluorophore mediated, optical immunosensor. Biosens Bioelectron. 21: 1333–1338,<br />
2006.<br />
Hong J, Lan K, Jang L. Chemical Electrical characteristics analysis of various cancer cells<br />
us<strong>in</strong>g a microfluidic device based on s<strong>in</strong>gle-cell impedance measurement. Sens<br />
Actuators B Chem. 173: 927–934, 2012.<br />
Huang JC, Chang YF, Chen KH, Su LC, Lee CW, Chen CC, Chen YMA, Chou C.<br />
Detection of severe acute respiratory syndrome (SARS) coronavirus nucleocapsid<br />
prote<strong>in</strong> <strong>in</strong> human serum us<strong>in</strong>g a localized surface plasmon coupled fluorescence fiberoptic<br />
biosensor. Biosens Bioelectron. 25: 320–325, 2009.<br />
Ivnitski D, Wolf T, Solomon B. An amperometric biosensor for real-time analysis of<br />
molecular recognition. Bioelectroch Bioener. 45: 27–32, 1998.<br />
Ivnitski D, Sitdikov R, Ivnitski N. Non-<strong>in</strong>vasive electrochemical h<strong>and</strong>-held biosensor as<br />
diagnostic <strong>in</strong>dicator of dental diseases. Electrochem. Commun. 5: 225–229, 2003.<br />
Jang HS, Park KN, Kang CD, Kim JP, Sim SJ, Lee KS. Optical fiber SPR biosensor with<br />
s<strong>and</strong>wich assay for the detection of prostate specific antigen. Opt Commun. 282: 2827–<br />
2830, 2009.<br />
Jelen F, Yosypchuk B, Kourilová A, Novotný L, Palecěk E. Label-free determ<strong>in</strong>ation of<br />
picogram quantities of DNA by stripp<strong>in</strong>g voltammetry with solid copper amalgam or<br />
mercury electrodes <strong>in</strong> the presence of copper. Anal chem. 74: 4788-4793, 2002.<br />
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