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1.A Blawas and W Reichert, Protein patterning, Biomaterials 7-9(19), 595 (1998).
2.J Mooney, A Hunt, J McIntosh, C Liberko, D Walba and C Rogers, Patterning of functional antibodies and other proteins by photolithography of silane monolayers, Proc Natl Acad Sci USA 93(22), 12287 (1996).
3.A Flounders, D Brandon and A Bates, Patterning of immobilized antibody layers via photolithography and oxygen plasma exposure, Biosens Bioelectron 12(6), 447 (1997).
4.G Zhang, T Tanii, Y Kanari and I Ohdomari, Production of nanopatterns by a combination of electron beam lithography and a self-assembled monolayer for an antibody nanoarray, J Nanosci Nanotechnol 7(2), 410 (2007).
5.C Harnett, K Satyalakshmi and H Craighead, Bioactive templates fabricated by low-energy electron beam lithography of self-assembled monolayers, Langmuir 17, 178 (2001).
6.T Powell and J Yoon, Fluorescent Biorecognition of Gold Nanoparticle-IgG Conjugates Self-Assembled on E-Beam Patterns (2006).
7.A Kumar and G Whitesides, Features of gold having micrometer to centimeter dimensions can be formed through a combination of stamping with an elastomeric stamp and an alkanethiol “ink” followed by chemical etching, Appl Phys Lett 63(14), 2002 (1993).
8.Y Xia and GM Whitesides, Soft Lithography. Angewandte Chemie, International Edition 37(5), 550 (1998).<550::AID-ANIE550>3.0.CO;2-G
9.R Piner, J Zhu, F Xu, S Hong and C Mirkin, “Dip-pen” nanolithography, Science 283(5402), 661 (1999).
10.K Lee, S Park, C Mirkin, J Smith and M Mrksich, Protein nanoarrays generated by dip-pen nanolithography, Science 295(5560), 1702 (2002).
11.A Bruckbauer, D Zhou, D Kang, Y Korchev, C Abell and D Klenerman, An addressable antibody nanoarray produced on a nanostructured surface, J Amer Chem Soc 126(21), 6508 (2004).
12.H Li, D Kang, M Blamire and W Huck, Focused ion beam fabrication of silicon print masters, Nanotechnology 14, 220 (2003).
13.A Bruckbauer, L Ying, A Rothery, D Zhou, A Shevchuk, C Abell, Y Korchev and D Klenerman, Writing with DNA and protein using a nanopipet for controlled delivery, J Amer Chem Soc 124(30), 8810 (2002).
14.R Atmar, A Opekun, M Gilger, M Estes, S Crawford, F Neill and D Graham, Norwalk virus shedding after experimental human infection, Emerg Infect Dis 14(10), 1553 (2008).
15.K Xavier and R Willson, Association and dissociation kinetics of anti-hen egg lysozyme monoclonal antibodies HyHEL-5 and HyHEL-10, Biosphysical J 74(4), 2036 (1998).
16.S Ivers, S Baranov, T Sherlock, K Kourentzi, P Ruchhoeft, R Willson and K Larin, Depth-resolved imaging and detection of micro-retroreflectors within biological tissue using Optical Coherence Tomography, Biomed Opt Expr 1(2), 367 (2010).
17.S Arya, P Pandey, S Singh, M Datta and B Malhotra, Dithiobissuccinimidyl propionate self assembled monolayer based cholesterol biosensor, Analyst 132(10), 1005 (2007).
18.M Darder, K Takada, F Pariente, E Lorenzo and H Abruna, Dithiobissuccinimidyl propionate as an anchor for assembling peroxidases at electrodes surfaces and its application in a H2O2, biosensor, Anal Chem 24(71), 5530 (1999).
19.E Katz, A chemically modified electrode capable of a spontaneous immobilization of amino compounds due to its functionalization with succinimidyl groups, J Electroanalytical Chem Interfacial Electrochem 291(1–2), 257 (1990).
20.A Hogg, Conversion of mass spectrometers for fast-atom bombardment using easily constructed components, Int J Mass Spectrom Ion Phys 49, 25 (1983).
21.J Franks and A Ghander, A saddle field ion source of spherical configuration for etching and thinning applications, Vacuum 24(10), 489 (1974).
22.A Nasrullah, D Smith, T Sherlock, P Ruchhoeft and D Litvinov, Near neighbor averaging: A technique for improving image uniformity in aperture array lithography, J Vacuum Sci Technol B Microelectronics Nanometer Struct 27, 2674 (2009).
23.S Lee, J Ahn, M Kim, Y Shin, J Lee, K Lim and K Kim, Enhanced Biomolecular Detection Based on Localized Surface Plasmon Resonance (LSPR) Using Enzyme-Precipitation Reaction, J NanosciNanotechnol 10(5), 3246 (2010).
24.L Riemenschneider, S Blank and M Radmacher, Enzyme-assisted nanolithography, Nano Lett 5(9), 1643 (2005).
25.J Leary, D Brigati and D Ward, Rapid and sensitive colorimetric method for visualizing biotin-labeled DNA probes hybridized to DNA or RNA, immobilized on nitrocellulose: Bio-blots, Proceedings of the National Academy of Sciences 80(13), 4045 (1983).
26.J Hainfeld and W Liu, Method for detecting a target molecule by metal deposition (2010).
27.R Möller, R Powell, J Hainfeld and W Fritzsche, Enzymatic control of metal deposition as key step for a low-background electrical detection for DNA chips, Nano Lett 5(7), 1475 (2005).
28.K Hering, R Möller, W Fritzsche and J Popp, Microarray-Based Detection of Dye-Labeled DNA by SERRS Using Particles Formed by Enzymatic Silver Deposition, ChemPhysChem 9(6), 867 (2008).
29.G Francis, M Jones, G Beadle and S Stein, Bright-field in situ hybridization for HER2 gene amplification in breast cancer using tissue microarrays: correlation between chromogenic (CISH) and automated silver-enhanced (SISH) methods with patient outcome, Diagn Mol Pathol 18(2), 88 (2009).
30.L Lyon, M Musick and M Natan, Colloidal Au-enhanced surface plasmon resonance immunosensing, Anal Chem 70(24), 5177 (1998).
31.J Nam and K Jang, Detection of proteins using a colorimetric bio-barcode assay, Nature Protocols-Electronic Edition 2(6), 1438 (2007).
32.R Reynolds III, C Mirkin and R Letsinger, Homogeneous, nanoparticle-based quantitative colorimetric detection of oligonucleotides, J Amer Chem Soc 122(15), 3795 (2000).
33.J Nam, C Thaxton and C Mirkin, Nanoparticle-based bio-bar codes for the ultrasensitive detection of proteins, Science 301(5641), 1884 (2003).
34.Y Liu, D Zhang, E Alocilja and S Chakrabartty, Biomolecules detection using a silver-enhanced gold nanoparticle-based biochip, Nanoscale Res Lett 5(3), 533 (2010).
35.S Sia, V Linder, B Parviz, A Siegel and G Whitesides, An Integrated Approach to a Portable and Low-Cost Immunoassay for Resource-Poor Settings, Angewandte Chemie International Edition 43(4), 498 (2004).

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