Adv Mater 2011, 23:4918–4922.CrossRef 5. Balci S, Bittner AM, Hah

Adv Mater 2011, 23:4918–4922.CrossRef 5. Balci S, Bittner AM, Hahn K, Scheu C, Knez check details M, Kadri A, Wege C, Jeske H, Kern K: Copper nanowires within the central channel of tobacco mosaic virus particles. Electrochim Acta 2006, 51:6251–6257.CrossRef 6. Klug A: The tobacco mosaic virus particle: structure and assembly. Philos Trans Biol Sci 1999, 354:531–535.CrossRef 7. Wang XN, Niu ZW, Li SQ, Wang Q, Li XD: Nanomechanical characterization of polyaniline coated tobacco mosaic virus

nanotubes. J Biomed Mater Res A 2008, 87A:8–14.CrossRef 8. Lee LA, Nguyen QL, Wu LY, Horyath G, Nelson RS, Wang Q: Mutant plant viruses with cell binding motifs provide differential adhesion strengths and morphologies. Biomacromolecules 2012, 13:422–431.CrossRef 9. Petrie TA, Raynor JE, Dumbauld DW, Lee TT, Jagtap S, Templeman KL, Collard DM, Garcia AJ: Multivalent integrin-specific ligands enhance tissue healing and biomaterial integration. Sci Transl Med 2010, 2:1–6.CrossRef 10. Kaur G, Wang C, Sun J, Wang Q: The synergistic

effects of multivalent ligand display and nanotopography on osteogenic differentiation of rat bone marrow stem cells. Biomaterials 2010, 31:5813–5824.CrossRef 11. Kaur G, Valarmathi MT, Potts JD, Jabbari E, Sabo-Attwood T, Wang Q: Regulation of osteogenic differentiation of rat bone marrow stromal cells on 2D nanorod substrates. Biomaterials 2010, 31:1732–1741.CrossRef 12. Wu LY, Zang JF, Lee LA, Niu ZW, Horvatha GC, Braxtona V, Wibowo AC, Bruckman MA, Ghoshroy S, zur Loye HC, Li XD, Wang Q: Electrospinning fabrication, structural and mechanical characterization Y-27632 research buy of rod-like virus-based composite nanofibers. J Mater Chem 2011, 21:8550–8557.CrossRef 13. Li T, Winans RE, Lee B: Superlattice of rodlike virus particles formed in aqueous solution through like-charge attraction. Langmuir 2011, 27:10929–10937.CrossRef

14. Li T, Zan X, Winans RE, Wang Q, Lee B: Biomolecular assembly of thermoresponsive Ceramide glucosyltransferase superlattices of the tobacco mosaic virus with large tunable interparticle Bortezomib concentration distances. Angew Chem Int Ed 2013, 52:6638–6642.CrossRef 15. Agrawal BK, Pathak A: Oscillatory metallic behaviour of carbon nanotube superlattices – an ab initio study. Nanotechnology 2008, 19:135706–135706.CrossRef 16. Hultman L, Engstrom C, Oden M: Mechanical and thermal stability of TiN/NbN superlattice thin films. Surface Coatings Technol 2000, 133:227–233.CrossRef 17. Jaskolski W, Pelc M: Carbon nanotube superlattices in a magnetic field. Int J Quantum Chem 2008, 108:2261–2266.CrossRef 18. Wu MJ, Wen HC, Wu SC, Yang PF, Lai YS, Hsu WK, Wu WF, Chou CP: Nanomechanical characteristics of annealed Si/SiGe superlattices. Appl Surf Sci 2011, 257:8887–8893.CrossRef 19. Xu JH, Li GY, Gu MY: The microstructure and mechanical properties of TaN/TiN and TaWN/TiN superlattice films. Thin Solid Films 2000, 370:45–49.CrossRef 20.

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