Диссертация (1091554), страница 18
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P. 999–1006.63.Li X., Cai W., An J., et al. Large-Area Synthesis of High-Quality and UniformGraphene Films on Copper Foils // Science (80-. ). 2009. Vol. 324, № 5932.P. 1312–1314.64.Lv R., Li Q., Botello-Méndez A.R., et al. Nitrogen-doped graphene: beyondsingle substitution and enhanced molecular sensing // Sci.
Rep. 2012. Vol. 2.P. 586.65.Golberg D., Bando Y., Tang C.C., et al. Boron Nitride Nanotubes // Adv.137Mater. WILEY‐VCH Verlag, 2007. Vol. 19, № 18. P. 2413–2432.66.Song L., Ci L., Lu H., et al. Large Scale Growth and Characterization ofAtomic Hexagonal Boron Nitride Layers // Nano Lett. American ChemicalSociety, 2010. Vol. 10, № 8. P. 3209–3215.67.Gutiérrez H.R., Perea-López N., Elías A.L., et al. Extraordinary RoomTemperature Photoluminescence in Triangular WS 2 Monolayers // Nano Lett.2013. Vol. 13, № 8.
P. 3447–3454.68.Zhan Y., Liu Z., Najmaei S., et al. Large-area vapor-phase growth andcharacterization of MoS 2 atomic layers on a SiO 2 substrate // Small. WILEY‐VCH Verlag, 2012. Vol. 8, № 7. P. 966–971.69.Liu K.K., Zhang W., Lee Y.H., et al. Growth of large-area and highlycrystalline MoS 2 thin layers on insulating substrates // Nano Lett. AmericanChemical Society, 2012. Vol. 12, № 3. P. 1538–1544.70.Zhang X.Q., Lin C.H., Tseng Y.W., et al. Synthesis of lateral heterostructuresof semiconducting atomic layers // Nano Lett. American Chemical Society,2015. Vol.
15, № 1. P. 410–415.71.Chiu M.H., Li M.Y., Zhang W., et al. Spectroscopic signatures for interlayercoupling in MoS2-WSe2 van der waals stacking // ACS Nano. AmericanChemical Society, 2014. Vol. 8, № 9. P. 9649–9656.72.Wang Z., Li H., Liu Z., et al. Mixed low-dimensional nanomaterial: 2Dultranarrow MoS2 inorganic nanoribbons encapsulated in quasi-1D carbonnanotubes // J. Am.
Chem. Soc. American Chemical Society, 2010. Vol. 132,№ 39. P. 13840–13847.73.Wang Z., Zhao K., Li H., et al. Ultra-narrow WS2 nanoribbons encapsulatedin carbon nanotubes // J. Mater. Chem. The Royal Society of Chemistry, 2011.Vol. 21, № 1. P. 171.74.Ю.С.Кузьминов. Электрооптический и нелинейнооптический кристалл138ниобата лития.
Москва: Наука, 1987. 264 p.75.Sohler W., Das B.K., Dey D., et al. Erbium-doped lithium niobate waveguidelasers // IEICE Transactions on Electronics. 2005. Vol. E88–C, № 5. P. 990–996.76.Orlov S., Grundkötter W., Hofmann D., et al. Mid-Infrared Integrated OpticalParametric Generators and Oscillators with Periodically Poled Ti:LiNbO3Waveguides. 2008. P. 377–392.77.Langrock C., Kumar S., McGeehan J.E., et al. All-optical signal processingusing χ(2) nonlinearities in guided-wave devices // Journal of LightwaveTechnology.
2006. Vol. 24, № 7. P. 2579–2592.78.Galili M., Huettl B., Schmidt-Langhorst C., et al. 320 Gbit/s DQPSK AllOptical Wavelength Conversion using Four Wave Mixing // OFC/NFOEC2007 - 2007 Conf. Opt. Fiber Commun. Natl. Fiber Opt. Eng. Conf. IEEE,2007. № 2. P. 1–3.79.ArahiraS.,UesuY.OpticalSecond-HarmonicGenerationinFerroelectricDicalcium Lead Propionate // J. Phys. Soc. Japan. 1991.
Vol. 60,№ 7. P. 2461–2469.80.Yokota H., Oyama T., Uesu Y. Second-harmonic-generation microscopicobservations of polar state in Li-doped KTaO3 under an electric field // Phys.Rev. B - Condens. Matter Mater. Phys. 2005. Vol. 72, № 14. P. 3–4.81.Yokota H., Uesu Y., Malibert C., et al. Second-harmonic generation and x-raydiffraction studies of the pretransitional region and polar phase in relaxor K(1x) Lix Ta O3 // Phys. Rev. B - Condens.
Matter Mater. Phys. 2007. Vol. 75,№ 18. P. 3–4.82.Ogawa N., Satoh T., Ogimoto Y., et al. Nonlinear optical detection of aferromagnetic state at the single interface of an antiferromagneticLaMnO3/SrMnO3 double layer // Phys. Rev. B - Condens. Matter Mater. Phys.1392008. Vol.
78, № 21. P. 26–29.83.Pustogowa U., Hübner W., Bennemann K. Theory for the nonlinear magnetooptical Kerr effect at ferromagnetic transition-metal surfaces // Phys. Rev. B.1993. Vol. 48, № 12. P. 8607–8618.84.Fiebig M., Lottermoser T., Fröhlich D., et al. Observation of coupled magneticand electric domains. // Nature. 2002. Vol. 419, № 6909. P. 818–820.85.Fiebig M., Pavlov V. V., Pisarev R. V.
Second-harmonic generation as a toolfor studying electronic and magnetic structures of crystals: review // J. Opt.Soc. Am. B. 2005. Vol. 22, № 1. P. 96.86.Van Aken B.B., Rivera J.-P., Schmid H., et al. Observation of ferrotoroidicdomains. // Nature. 2007. Vol. 449, № 7163. P. 702–705.87.Nystrom M.J., Wessels B.W., Lin W.P., et al. Nonlinear optical properties oftextured strontium barium niobate thin films prepared by metalorganicchemical vapor deposition // Appl. Phys.
Lett. AIP Publishing, 1995. Vol. 66,№ 14. P. 1726.88.Heinz T.F., Loy M.M.T., Thompson W.A. Study of Si(111) surfaces by opticalsecond-harmonic generation: Reconstruction and surface phase transformation// Phys. Rev. Lett. 1985. Vol. 54, № 1. P. 63–66.89.Mishina E.D., Sherstyuk N.E., Misyuraev T. V, et al. Structural studies ofepitaxial PbTiO 3 ® lms by optical second harmonic generation // Thin SolidFilms. 1998. Vol.
336, № 1. P. 291–294.90.Binnig G., Quate C.F., Gerber C. Atomic Force Microscope // Phys. Rev. Lett.American Physical Society, 1986. Vol. 56, № 9. P. 930–933.91.Binnig G., Rohrer H. Scanning tunneling microscopy // Helv. Phys. Acta.1982. Vol. 55. P. 726–735.92.Giessibl F.J., Quate C.F. Exploring the nanoworld with atomic force140microscopy // Phys.
Today. American Institute of Physics, 2006. Vol. 59, №12. P. 44–50.93.Sarid D. Scanning force microscopy : with applications to electric, magnetic,and atomic forces. Oxford University Press, 1994. 263 p.94.Alexander S., Hellemans L., Marti O., et al. An atomic-resolution atomic-forcemicroscope implemented using an optical lever // J. Appl. Phys. AIPPublishing, 1989. Vol. 65, № 1.
P. 164–167.95.Rubio-sierra B.F.J., Heckl W.M., Stark R.W. Nanomanipulation by AtomicForce Microscopy ** // Adv. Eng. Mater. 2005. Vol. 7, № 4. P. 193–196.96.Nierengarten J.-F., Setayesh S. Towards polymerizable fullerene derivativesto stabilize the initially formed phases in bulk-heterojunction solar cells // NewJ. Chem. The Royal Society of Chemistry, 2006. Vol. 30, № 3. P.
313.97.Butt H.-J., Cappella B., Kappl M. Force measurements with the atomic forcemicroscope: Technique, interpretation and applications // Surf. Sci. Rep. 2005.Vol. 59, № 1–6. P. 1–152.98.Shukla V.K., Kumar S., Deva D. AFM studies on formation of new phaseresponsible for enhanced photoluminescence in light-emitting small molecularthin films // J. Lumin. 2006. Vol. 121, № 1. P. 132–136.99.Hahm J., Sibener S.J. Time-resolved atomic force microscopy imaging studiesof asymmetric PS-b-PMMA ultrathin films: Dislocation and disclinationtransformations, defect mobility, and evolution of nanoscale morphology // J.Chem.
Phys. AIP Publishing, 2001. Vol. 114, № 10. P. 4730–4740.100. Schönherr H., Frank C.W. Ultrathin films of poly(ethylene oxides) on oxidizedsilicon. 2. In situ study of crystallization and melting by hot stage AFM //Macromolecules. American Chemical Society, 2003.
Vol. 36, № 4. P. 1199–1208.101. Hobbs J.K., Humphris A.D.L., Miles M.J. In-situ atomic force microscopy of141polyethylene crystallization. 1. Crystallization from an oriented backbone //Macromolecules. American Chemical Society, 2001. Vol. 34, № 16. P. 5508–5519.102. Choi J., Song H., Kim N., et al. Development of n-type polymersemiconductors for organic field-effect transistors // Semicond.
Sci. Technol.IOP Publishing, 2015. Vol. 30, № 6. P. 64002.103. Antony J., Pendyala S., Sharma A., et al. Room temperature ferromagnetic andultraviolet optical properties of Co-doped ZnO nanocluster films // Journal ofApplied Physics. AIP Publishing, 2005. Vol. 97, № 10. P. 10D307.104. Hutagalung S.D., Lew K.C., Darsono T.
LS-SVM UMA NOVAFERRAMENTAQUIMIOMÉTRICAPARAREGRESSÃOMULTIVARIADA..pdf. 2014. Vol. 43, № 2. P. 267–272.105. Chen J., Sun Y., Zhong L., et al. Scalable Fabrication of MultiplexedPlasmonic Nanoparticle Structures Based on AFM Lithography // Small. 2016.106. Korayem M.H., Noroozi M., Daeinabi K. Control of an atomic forcemicroscopy probe during nano-manipulation via the sliding mode method //Sci.
Iran. 2012. Vol. 19, № 5. P. 1346–1353.107. Gwo S., Chen H.-Y., Lin M.-H., et al. Nanomanipulation and controlled selfassembly of metal nanoparticles and nanocrystals for plasmonics // Chem. Soc.Rev. The Royal Society of Chemistry, 2016. Vol. 64. P. 39–44.108. Heping Chen H., Ning Xi N., Guangyong Li G., et al. Automated nanoassembly of nanoscale structures // 4th IEEE Conference on Nanotechnology,2004.