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1.S Balamurugan, LK Ista, J Yan, GP Lopez, J Fick, M Himmelhaus and M Grunze, Reversible protein adsorption anf bioadhesion on monolayers terminated with mixtures of oligo(ethylene glycol) and methyl groups, J Am Chem Soc 127, 14548 (2005).
2.A Bernard, E Delamarche, H Schmid, B Michel, HR Bosshard and H Biebuyck, Printing patterns of proteins, Langmuir 14, 2225 (1998).
3.F Bretagnol, M Lejeune, A Papadopoulou-Bouraoui, M Hasiwa, H Rauscher, G Ceccone, P Colpo and F Rossi, Fouling and non-fouling surfaces produced by plasma polymerization of ethylene oxide monomer, Acta Biomater 2, 165 (2006).
4.F Bretagnol, L Ceriotti, M Lejeune, A Papadopoulou-Bouraoui, M Hasiwa, D Gilliland, G Ceccone, P Colpo and F Rossi, Functional micropatterned surfaces by combination of plasma polymerization and lift-off processes, Plasma Process Polym 3, 30 (2006).
5.F Bretagnol, A Valsesia, G Ceccone, P Colpo, D Gilliland, L Ceriotti, M Hasiwa and F Rossi, Surface functionalization and pPatterning techniques to design interfaces for biomedical and biosensor applications, Plasma Process Polym 3, 443 (2006).
6.F Bretagnol, O Kylian, M Hasiwa, L Ceriotti, H Rauscher, G Ceccone, D Gilliland, P Colpo and F Rossi, Micro-patterned surfaces based on plasma modification of PEO-like coating for biological applications, Sensor Actuat B-Chem 123, 283 (2007).
7.JE Butler, Solid supports in enzyme-linked immunosorbent assay and other solid-phase immunoassays, Methods 22, 4 (2000).
8.Y Chang, S-C Liao, A Higuchi, R-C Ruaan, C-W Chu and W-Y Chen, A highly stable nonbiofouling surface with well-packed grafted zwitterionic polysulfobetaine for plasma protein repulsion, Langmuir 24, 5453 (2008).
9.RG Chapman, E Ostuni, MN Liang, G Meluleni, E Kim, L Yan, G Pier, HS Warren and GM Whitesides, Polymeric thin films that resist the adsorption of proteins and the adhesion of bacteria, Langmuir 17, 1225 (2001).
10.MA Coleman, PT Beernink, JA Camarero and JS Albala, Applications of functional protein microarrays: identifying protein-protein interactions in an array format, Methods Mol Biol 385, 121 (2007).
11.E Delamarche, A Bernard, H Schmid, B Michel and H Biebuyck, Patterned delivery of immunoglobulins to surfaces using microfluidic networks, Science 276, 779 (1997).
12.E Delamarche, C Donzel, FS Kamounah, H Wolf, M Geissler, R Stutz, P Schmidt-Winkel, B Michel, HJ Mathieu and K Schaumburg, Microcontact printing using poly(dimethylsiloxane) stamps hydrophilized by poly(ethylene oxide) silanes, Langmuir 19, 8749 (2003).
13.WM Gao, R Kuick, RP Orchekowski, DE Misek, J Qiu, AK Greenberg, WN Rom, DE Brenner, GS Omenn, BB Haab and SM Hanash, Distinctive serum protein profiles involving abundant proteins in lung cancer patients based upon antibody microarray analysis, BMC Cancer 5, 110 (2005).
14.A Halperin, Polymer brushes that resist adsorption of model proteins: design parameters, Langmuir 15, 2525 (1999).
15.S Herrwerth, W Eck, S Reinhardt and M Grunze, Factors that determine the protein resistance of oligoether self-assembled monolayers - internal hydrophilicity, terminal hydrophilicity, and lateral packing density, J Am chem soc 125, 9359 (2003).
16.NB Holland, Y Qiu, M Ruegsegger and RE Marchant, Biomimetic engineering of non-adhesive glycocalyx-like surfaces using oligosaccharide surfactant polymers, Nature 392, 799 (1998).
17.A Hucknall, S Rangarajan and A Chilkoti, In pursuit of zero: polymer brushes that resist the adsorption of proteins, Adv Mater 21, 2441 (2009).
18.A Hucknall, DH Kim, S Rangarajan, RT Hill, WM Reichert and A Chilkoti, Simple fabrication of antibody microarrays on nonfouling polymer brushes with femtomolar sensitivity for protein analytes in serum and blood, Adv Mater 21, 1968 (2009).
19.RJ Jackman, JL Wilbur and GM Whitesides, Fabrication of submicrometer features on curved substrates by microcontact printing, Science 269, 664 (1995).
20.SI Jeon and JD Andrade, Protein surface interactions in the presence of polyethylene oxide.2. Effect of protein size, J Colloid Interf Sci 142, 159 (1991).
21.SI Jeon, JH Lee, JD Andrade and PG Degennes, Protein surface interactions in the presence of polyethylene oxide.1. Simplified theory, J Colloid Interf Sci 142, 149 (1991).
22.GL Kenausis, J Vörös, DL Elbert, N Huang, R Hofer, L Ruiz-Taylor, M Textor, JA Hubbell and ND Spencer, Poly(L-lysine)-g-poly(ethylene glycol) layers on metal oxide surfaces: attachment mechanism and effects of polymer architecture on resistance to protein adsorption, J Phys Chem B 104, 3298 (2000).
23.SF Kingsmore, Multiplexed protein measurement: technologies and applications of protein and antibody arrays. Nature reviews, Drug discov 5, 310 (2006).
24.S Krishnan, CJ Weinman and CK Ober, Advances in polymers for anti-biofouling surfaces, J Mater Chem 18, 3405 (2008).
25.A Kumar and GM 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, 2002 (1993).
26.S Martwiset, AE Koh and W Chen, Nonfouling characteristics of dextran-containing surfaces, angmuir 22, 8192 (2006).
27.TB Mcpherson, SJ Lee and K Park, Analysis of the prevention of protein adsorption by steric repulsion theory, Proteins Interfaces Ii 602, 395 (1995).
28.B Michel, A Bernard, A Bietsch, E Delamarche, M Geissler, D Juncker, H Kind, JP Renault, H Rothuizen, H Schmid, P Schmidtwinkel, R Stutz and H Wolf, Printing meets lithography: soft approaches to high-resolution patterning, Ibm J Res Dev 45, 870 (2001).
29.S Morgenthaler, C Zink, B Stadler, J Voros, S Lee, ND Spencer and SG Tosatti, Poly(L-lysine)-grafted-poly(ethylene glycol)-based surface-chemical gradients. Preparation, characterization, and first applications, Biointerphases 1, 156 (2006).
30.N Nath, J Hyun, H Ma and A Chilkoti, Surface engineering strategies for control of protein and cell interactions, Surf Sci 570, 98 (2004).
31.E Osterberg, K Bergstrom, K Holmberg, TP Schuman, JA Riggs, NL Burns, JM Vanalstine and JM Harris, Protein-rejecting ability of surface-bound dextran in End-on and side-on configurations - comparison to Peg, J Biomed Mater Res 29, 741 (1995).
32.E Ostuni, RG Chapman, RE Holmlin, S Takayama and GM Whitesides, A survey of structure - property relationships of surfaces that resist the adsorption of protein, Langmuir 17, 5605 (2001).
33.S Pasche, SM De Paul, J Vörös, ND Spencer and M Textor, Poly (L-lysine)-graft-poly (ethylene glycol) assembled monolayers on niobium oxide surfaces: a quantitatitve study of the influence of polymer interfacial architecture on resistance to protein adsorption by ToF-SIMS ans in situ OWLS, Langmuir 19, 9216 (2003).
34.C Perrino, S Lee, SW Choi, A Maruyama and ND Spencer, A biomimetic alternative to poly(ethylene glycol) as an antifouling coating: resistance to nonspecific protein adsorption of poly(L-lysine)-graft-dextran, Langmuir 24, 8850 (2008).
35.SC Popescu, GV Popescu, S Bachan, Z Zhang, M Seay, M Gerstein, M Snyder and SP Dinesh-Kumar, Differential binding of calmodulin-related proteins to their targets revealed through high-density Arabidopsis protein microarrays, Proc Natl Acad Sci U S A 104, 4730 (2007).
36.AP Quist, E Pavlovic and S Oscarsson, Recent advances in microcontact printing, Anal Bioanal Chem 381, 591 (2005).
37.F Rossi and P Colpo, Plasma processes and applications in NanoBiotechnology, J Phys Conf Ser 252, 012001 (2010).
38.SA Ruiz and CS Chen, Microcontact printing: a tool to pattern, Soft Matter 3, 168 (2007).
39.A Ruiz, L Ceriotti, L Buzanska, M Hasiwa, F Bretagnol, G Ceccone, D Gilliland, H Rauscher, S Coecke, P Colpo and F Rossi, Controlled micropatterning of biomolecules for cell culturing, Microelectron Eng 84, 1733 (2007).
40.D Schwendel, R Dahint, S Herrwerth, M Schloerholz, W Eck and M Grunze, Temperature dependence of the protein resistance of poly- and oligo(ethylene glycol)- terminated alkanethiolate monolayers, Langmuir 17, 5717 (2001).
41.I Szleifer, Protein adsorption on surfaces with grafted polymers: a theoretical approach, Biophys J 72, 595 (1997).
42.JL Wilbur, A Kumar, E Kim and GM Whitesides, Microfabrication by microcontact printing of self-assembled monolayers, Adv Mater 6, 600 (1994).
43.YN Xia and GM Whitesides, Soft lithography, Angew Chem Int Edit 37, 551 (1998).<550::AID-ANIE550>3.0.CO;2-G
44.YN Xia and GM Whitesides, Soft lithography, Annu Rev Mater Sci 28, 153 (1998).
45.Y Xia, M Mrksich, E Kim and GM Whitesides, Microcontact printing of octadecylsiloxane on the surface of silicon dioxide and its application in microfabrication, J Am Chem Soc 117, 9576 (1995).
46.XM Zhao, YN Xia and GM Whitesides, Soft lithographic methods for nano-fabrication, J Mater Chem 7, 1069 (1997).
47.X Zhou, F Boey, F Huo, L Huang and H Zhang, Chemically functionalized surface patterning, Small 16, 2273 (2011).
48.H Zhu, JF Klemic, S Chang, P Bertone, A Casamayor, KG Klemic, D Smith, M Gerstein, MA Reed and M Snyder, Analysis of yeast protein kinases using protein chips, Nat Genet 26, 283 (2000).
49.B Zhu, T Eurell, R Gunawan and D Leckband, Chain-length dependence of the protein and cell resistance of oligo(ethylene glycol)-terminated self-assembled monolayers on gold, J Biomed Mater Res 56, 406 (2001).<406::AID-JBM1110>3.0.CO;2-R

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