Appl Phys Lett 2011,98(24):243114

Appl Phys Lett 2011,98(24):243114.CrossRef 6. Bruggeman D: Dielectric constant and conductivity of mixtures of isotropic materials. Ann Phys (Leipzig) 1935, 24:636–679. 7. Garnett JM: Colors in material glasses and metal films. Trans Roy Soc 1904, 53:385.CrossRef 8. Bozhevolnyi SI, Volkov VS, selleck chemical Devaux E, Laluet JY, Ebbesen TW: Channel plasmon subwavelength waveguide components including interferometers and ring resonators. Nature 2006,440(7083):508.CrossRef 9. Krasavin AV, Zayats AV: Silicon-based

plasmonic waveguides. Opt Expr 2010,18(11):11791–11799.CrossRef 10. Boltasseva A: Plasmonic components fabrication via nanoimprint. J Opt A: Pure Appl Opt 2009,11(11):114001.CrossRef 11. Lipovskii AA, Melehin VG, Petrov MI, Svirko YP: Thermal electric field imprinting lithography: fundamentals and applications. In Lithography: Principles, Processes and Materials. Edited by: Hennessy TC. New York: Nova Science; 2011:284–284. 12. Deparis O, Kazansky PG, Abdolvand A, Podlipensky A, SGC-CBP30 nmr Seifert G, Graener H: Poling-assisted bleaching of metal-doped nanocomposite

glass. Appl Phys Lett 2004,85(6):872.CrossRef 13. Podlipensky A, Abdolvand A, Seifert G, Graener see more H, Deparis O, Kazansky PG: Dissolution of silver nanoparticles in glass through an intense dc electric field. J Phys Chem B 2004,108(46):17699–17702. [http://pubs.acs.org/doi/abs/10.1021/jp045874c]CrossRef 14. Lipovskii AA, Kuittinen M, Karvinen P, Leinonen K, Melehin VG, Zhurikhina VV, Svirko YP: Electric field imprinting of sub-micron patterns in glass-metal nanocomposites. Nanotechnology 2008,19(41):415304.CrossRef 15. Brunkov PN, Melekhin VG, Goncharov V, Lipovskii AA, Petrov MI: Submicron-resolved relief formation in poled glasses and glass-metal nanocomposites. Tech Farnesyltransferase Phys Lett 2008,34(12):1030.CrossRef 16. Abdolvand A, Podlipensky A, Matthias S, Syrowatka F, Gösele U, Seifert G, Graener H: Metallodielectric two-dimensional photonic

structures made by electric-field microstructuring of nanocomposite glasses. Adv Mater 2005,17(24):2983–2987.CrossRef 17. Afrosimov VV, Ber BY, Zhurikhina VV, Zamoryanskaya MV, Kazantsev DY, Kolesnikova EV, Lipovskii AA, Melekhin VG, Petrov MI: Mass transfer in thermo-electric-field modification of glass-metal nanocomposites. Tech Phys 2010,55(11):1600.CrossRef 18. Harris PJF: Fullerene-related structure of commercial glassy carbons. Philos Mag 2004,84(29):3159–3167. [http://www.tandfonline.com/doi/abs/10.1080/14786430410001720363]CrossRef 19. Takagi H, Miyazawa S, Takahashi M, Maeda R: Electrostatic imprint process for glass. Appl Phys Expr 2008, 1:024003.CrossRef 20. Leitner M, Peterlik H, Sepiol B, Graener H, Beleites M, Seifert G: Uniformly oriented, ellipsoidal nanovoids in glass created by electric-field-assisted dissolution of metallic nanoparticles. Phys Rev B 2009,79(15):1.CrossRef 21.

Inhibitor Kit

KIT is a receptor tyrosine kinase type III, which binds to stem cell factor.

Appl Phys Lett 2011,98(24):243114
Posted on June 28, 2020 by admin