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1.More information about the meeting can be found at Accessed October 4th, 2013More information about the meeting can be found at Accessed October 4th, 2013 More information about the meeting can be found at Accessed October 4th, 2013
2.M Grunze and G Exarhos, A surface scientist's perspective on Biointerphases, or "Out of the Vacuum, into the Liquid", Biointerphases 1, CL1 (2006).
3.B Kasemo, Biological surface science, Surf Sci 500, 656 (2002).
4.NJ Cho, CW Frank, B Kasemo and F Hook, Quartz crystal microbalance with dissipation monitoring of supported lipid bilayers on various substrates, Nat Protoc 5, 1096 (2010).
5.I Reviakine, D Johannsmann and RP Richter, Hearing what you can’t see and visualizing what you hear: interpreting quartz crystal microbalance data from solvated interfaces, Anal Chem 83, 8838 (2011).
6.ML Kraft, PK Weber, ML Longo, ID Hutcheon and SG Boxer, Phase separation of lipid membranes analyzed with high-resolution secondary ion mass spectrometry, Science 313, 1948 (2006).
7.R Michel, S Pasche, M Textor and DG Castner, Influence of PEG architecture on protein adsorption and conformation, Langmuir 21, 12327 (2005).
8.BP Lee, PB Messersmith, JN Israelachvili and JH Waite, Mussel-Inspired Adhesives and Coatings, Annu Rev Mater Res 41, 99 (2011).
9.D Falconnet, G Csucs, HM Grandin and M Textor, Surface engineering approaches to micropattern surfaces for cell-based assays, Biomaterials 27, 3044 (2006).
10.I Reviakine and A Brisson, Formation of supported phospholipid bilayers from unilamellar vesicles investigated by atomic force microscopy, Langmuir 16, 1806 (2000).
11.RP Richter, R Berat and AR Brisson, Formation of solid-supported lipid bilayers: An integrated view, Langmuir 22, 3497 (2006).
12.ET Castellana and PS Cremer, Solid supported lipid bilayers: From biophysical studies to sensor design, Surf Sci Rep 61, 429 (2006).
13.A Bouter, C Gounou, R Berat, S Tan, B Gallois, T Granier, BL d'Estaintot, E Poschl, B Brachvogel and AR Brisson, Annexin-A5 assembled into two-dimensional arrays promotes cell membrane repair, Nat Commun 2, 270 (2010).
14.EA Cavalcanti-Adam, T Volberg, A Micoulet, H Kessler, B Geiger and JP Spatz, Cell spreading and focal adhesion dynamics are regulated by spacing of integrin ligands, Biophys J 92, 2964 (2007).
15.DE Discher, DJ Mooney and PW Zandstra, Growth factors, matrices, and forces combine and control stem cells, Science 324, 1673 (2009).
16.JF Frisz, KY Lou, HA Klitzing, WP Hanafin, V Lizunov, RL Wilson, KJ Carpenter, R Kim, ID Hutcheon, J Zimmerberg, PK Weber and ML Kraft, Direct chemical evidence for sphingolipid domains in the plasma membranes of fibroblasts, Proc Natl Acad Sci U S A 110, E613 (2013).
17.JT Groves and ML Dustin, Supported planar bilayers in studies on immune cell adhesion and communication, J Immunol Methods 278, 19 (2003).
18.F Hook, B Kasemo, M Grunze and S Zauscher, Quantitative biological surface science: challenges and recent advances, ACS Nano 2, 2428 (2008).
19.BD Ratner, The blood compatibility catastrophe, J Biomed Mater Res 27, 283 (1993).
20.BD Ratner, The catastrophe revisited: Blood compatibility in the 21st century, Biomaterials 28, 5144 (2007).
21.BD Ratner, The biocompatibility manifesto: biocompatibility for the twenty-first century, J Cardiovasc Transl Res 4, 523 (2011).

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