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44.
Griffin J, Singh AK, Senapati D, et al. Sequence-specific HCV RNA quantification using
the size-dependent nonlinear optical properties of gold nanoparticles.
Small
2009;
5
:839-45
.
45.
Lin FYH, Sabri M, Alirezaie J, Li D, Sherman PM. Development of a nanoparticle-
labeled microfluidic immunoassay for detection of pathogenic microorganisms.
Clin
Diagn Lab Immunol
2005;
12
:418-25
.
46.
Fang SB, Tseng WY, Lee H-C, Tsai C-K, Huang T, Hou S- Y. Identification of Salmo-
nella using colony print and detection with antibody-coated gold nanoparticles.
Journal
of Microbiological Methods
2009;
77
:225-8
.
47.
Wang S, Singh AK, Senapati D, Neely A, Yu H , Ray PC. Rapid colorimetric identifi-
cation and targeted photothermal lysis of Salmonella bacteria by using bioconjugated
oval-shaped Au NPs.
Chem Eur J
2010;
19
:5600-6
.
48.
Jyoti APP, Singh SP, Jain SK, Shanker R. Colorimetric detection of nucleic acid signa-
ture of shiga toxin producing E. coli using Au NPs.
J Nanosci Nanotechnol
2010;
7
(4):54-8
.
49.
Schofield CL, Field RA, Russell DA. Glyconanoparticles for the colorimetric detection
of cholera toxin.
Analytical Chemistry
2007;
79
:1356-61
.
50.
Lee C, Gaston MA, Weiss AA, Zhang P. Colorimetricviraldetectionbasedonsialicacidsta-
bilizedgoldnanoparticles.
Biosensors & Bioelectronics
2013;
42
:236-41
.
51.
Wang Z, Duan N, Li J, Ye J , Ma S, G. L. Ultrasensitive chemiluminescent immunoassay
of Salmonella with silver enhancement of nanogold labels.
J Lumin
2011;
2
:136-41
.
52.
Li XX, Cao C, Han SJ, Sim SJ. Detection of pathogen based on the catalytic growth of
gold nanocrystals.
Water Research
2009;
43
:1425-31
.
53.
Fan C, Riley LK, Purdy GA, Mustapha A, Lin M. Detecting food- and waterborne viruses
by surface-enhanced Raman spectroscopy.
Journal of Food Science
2010;
75
(5):302-7
.
54.
Escoriza MF, VanBriesen JM, Stewart S, Maier J, Treado PJ. Raman spectroscopy and
chemical imaging for quantification of filtered waterborne bacteria.
Journal of Microbio-
logical Methods
2006;
66
(1):63-72
.
55.
Ravindranath SP, Wang Y, Irudayaraj J. SERS driven cross-platform based multiplex
pathogen detection.
Sensors and Actuators B: Chemical
2011;
152
(2):183-190
.
56.
Grow AE, Wood LL, Claycomb JL, Thompson PA. New biochip technology for label-
free detection of pathogens and their toxins.
J Microbiol Methods
2003;
53
(2):221-33
.
57.
Green GC, Chan ADC, Luo BS, Dan H, Lin M. Identification of Listeria species using a
low-cost surface-enhanced Raman scattering system with wavelet based signal process-
ing.
IEEE Trans Instrum Meas
2009;
10
:3713-22
.
58.
Wang Y, Ravindranath SP, Irudayaraj J. Separation and detection of multiple pathogens
in a food matrix by magnetic SERS nanoprobes.
Anal Bioanal Chem
2011;
3
:1271-8
.
59.
Dobozi-King M, Seo S, Kim JU, Young R, Cheng L, Kish L. Rapid detection and
identification of bacteria: sensing of phage triggered ion cascade (SEPTIC).
Journal of
Biological Physical Chemistry
2005;
5
:3-7
.
60.
Maalouf R, Hassen WM, Fournier-Wirth C, Coste J, Jaffrezic-Renault N. Comparison
of two innovative approaches for bacteria detection: paramagnetic nanoparticle and self
assembles multilayer process.
Microchimica Acta
2008;
163
:157-61
.
61.
Shinde SB, Fernandes CB, Patravale VB. Recent trends in in-vitro nanodiagnostics for
detection of pathogens.
Journal of Controlled Release
2012;
159
(2):164-80
.
62.
Hasebe Y, Yokobari K, Fukasawa K, Koguru T, Uchiyama S. Highly sensitive electro-
chemical determination of Escherichia coli density using tyrosinase-based chemically
amplified biosensor.
Analytica Chimica Acta
1997;
357
:51-4
.
63.
Brewster JD, Mazenko RS. Filtration capture and immunoelectrochemical detection for
rapid assay of Escherichia coli O157:H7.
Journal of Immunological Methods
1998;
211
:1-8
.
64.
Viswanathan S, Wu L C, Huang MR, Ho JA.
Analytical Chemistry
2006;
78
:1332
.
65.
Cheng Y, Liu Y, Huang J, et al. Amperometric tyrosinase biosensor based on Fe3O4
nanoparticle-coated carbon nanotubes nanocomposite for rapid detection of coliforms.
Electrochimica Acta
2009;
54
(9):2588-94
.
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