Атомно-силовая микроскопия углеродных наноструктур, биомакромолекул и их комплексов, страница 7
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Bussy, J. Cambedouzou, S. Lanone, et al., “Carbon Nanotubes in Macrophages:Imaging and Chemical Analysis by X-ray Fluorescence Microscopy”, Nano Lett. 8 (2008)2659.2.A.A. Shvedova, V. Castranova, E.R. Kisin, et al., ”Exposure to carbon nanotubematerial: Assessment of nanotube cytotoxicity using human keratinocyte cells”, Journalof Toxicology and Environmental Health, Part A 66 ( 2003) 1909.3.M.S. Dresselhaus, G.
Dresselhaus, P.C. Eklund, Science of Fullerenes and CarbonNanotubes: Academic Press, New York, 1996, 919 p.4.M. Lazzeri, S. Piscanec, F. Mauri et al., “Phonon Linewidths and Electron PhononCoupling in Nanotubes”, Phys. Rev. B 73 (2006) 155426.5.K.S. Novoselov, A.K. Geim, S.V. Morozov et al., “Electric Field Effect inAtomically Thin Carbon Films”, Science 306 (2004) 666.6.D. Graf, F.
Molitor, K. Ensslin et al. “Resolved Raman Spectroscopy of Singleand Few-Layer Graphene”, Nano Letters 7 (2007) 238.7.A.C. Ferrari, J.C. Meyer, V. Scardaci, et al., “Raman spectrum of Graphene andgraphene layers”, Phys. Rev. Lett. 97 (2006) 187401.8.C. Thomsen, S. Reich, “Double Resonant Raman Scattering in Graphite”, Phys.Rev. Lett.
85 (2000) 5214.9.O.I. Kiselyova, I.V. Yaminsky, “Atomic force microscopy of protein complexes”in "Atomic Force Microscopy: Biomedical Methods and Applications", (Methods inMolecular Biology, vol. 242), Ed. by P.C. Braga, D. Ricci. Humana Press, 2003, 217.10. &B9<8DJXT9G A=<C=E9G I8BD=>B=58G O8=5=:8I6D=E, M, =*!0(): 1/% 19976&' %$'.
R1/(+-&"& S.I., 88 +.11. W. Wenseleers, I.I. Vlasov, E. Goovaerts, et.al. “Efficient Isolation andSolubilization of Pristine Single Wall Nanotubes in Bile Salt Micelles”, AdvancedFunctional Materials 14 (2004) 1105.12. M. Zheng, A. Jagota, M.S. Strano, “Structure-Based Carbon Nanotube Sorting bySequence-Dependent DNA Assembly”, Science 302 (2003) 1545.13. M.M. Mazhul', G.B. Zavil'gel'skii, A.P. Zarubina, et al., “Escherichia coli FMNreductase and its effect on the activity of luciferase from the marine bacterium Vibriofischeri”, Microbiology 68 (1999) 119.!1.'(.', 1'2,#A$.-, 2-11,#+$&-- '@8"0-*'($.' ( 10,28<4-6 #$"'+$61.E.A. Obraztsova, A.V. Osadchy, E.D. Obraztsova, S.
Lefrant, I.V. Yaminsky,“Statistical Analysis of Atomic Force Microscopy and Raman Spectroscopy Data forEstimation of Graphene Layer Numbers”, Physica Status Solidi (b) 245 (2008) 20552059.2.)./. !"#$%&'($, 0.-. (JB9[6E, !.-. R9DJO8<9, 1. 49FD=E, '.). *I8<>B8M,“!<9:8A C6M>?E8G =C<=>?6<<HN JF:6D=C<HN <9<=?DJO=B <9 O9B?6D89:;<H6 B:6?B8 >58I8T;X 9?=I<=->8:=E=M I8BD=>B=588”, C.&%(/- ,$>/+&@ 2-&: 1$C'!(*%&'(&:-&(3$%$(J// H&@%$1$(()$ '&+,/C$(/9 ./&(*(&+-&6//, M&+-@* (4&++/9), 17-19/D(9 2008, +.
29.3.)./. !"#$%&'($, %.#. +9:8<8<9, $.0. "9:;G<>B8M, ,. /9OD6<9M?6)6DN=E>B9G, +. $9B8<6<, '.). *I8<>B8M “!?=I<=->8:=E9G I8BD=>B=58G ! E8DJ>9B9D?=@6:G”, A#&/'(): C!%(*#, 2008, ,. 70, No. 2, +. 199-201.244.!.%. #OD9A7=E, )./. !"#$%&'($, !.!. R=:=?JN8<, %.!.
"XD<8<9, “\@@6B?CE=M<=F= D6A=<9<>9 5D8 B=IO8<978=<<=I D9>>6G<88 >E6?9 E <9<=FD9@8?<HN5:6<B9N”, TUFV, 2008, ,. 133, No. 3, +. 654-662.5.E.A. Obraztsova, A.V. Osadchy, E.D. Obraztsova, S. Lefrant, I.V. Yaminsky,“Statistical Analysis of Atomic Force Microscopy and Raman Spectroscopy Data forEstimation of Graphene Layers Number”, Book of abstracts of the XXIInd InternationalWinterschool on Electronic Properties of Novel Materials, Kirchberg (Austria), 1-8March, 2008, p. 147.6.A.N. Obraztsov, A.V. Tyurnina, E.A.
Obraztsova, A.A. Zolotukhin, B. Liu, K.-C.Chin, A.T.S. Wee “Raman scattering characterization of CVD graphite films”, Carbon46 (2008) 963-968.7.E.A. Obraztsova, E.V. Dubrovin, I.V. Yaminsky, G. Louarn, S. Lefrant“Fabrication and AFM characterization of DNA – single-wall carbon nanotubes hybrid”,Book of abstracts of the 3rd STIPOMAT conference, Les Diableretz (Switzerland), 14-17October, 2007, p.135.8.)./. !"#$%&'($, '.). *I8<>B8M, &. (6@D9<, /. (J9D<, “'>>:6C=E9<86 =C<=8 CEJN>:=M<=F= FD9@6<9 I6?=C9I8 =5?8K6>B=M >56B?D=>B=588 8 I8BD=>B=588EH>=B=F= D9AD6[6<8G”, C.&%(/- ,$>/+&@ 1-&: 1$C'!(*%&'(&: -&(3$%$(J//H&@%$1$(()$ '&+,/C$(/9 ./&(*(&+-&6//, M&+-@*, 11-17 /D(9 2007, +. 46.9.A.N.
Obraztsov, E.A. Obraztsova, A.V. Tyurnina, A.A. Zolotukhin “Chemicalvapor deposition of thin graphite films of nanometer thickness”, Carbon 45 (2007) 20172021.10. E.A. Obraztsova, S. Lefrant, G. Luarn , I.V. Yaminskii “Raman spectroscopy ofone- and two-layer graphene”, Proc. of GDRE Nano-E topical meeting on opticalproperties of carbon nanotubes, Paris (France), 25 May, 2007, p. 11.11. E.A. Obraztsova, E.V.
Dubrovin, I.V. Yaminsky, G. Louarn, S. Lefrant,“Fabrication and AFM characterization of DNA-separated single-wall carbonnanotubes”, Proc. of GDRE-06, Obernai (France), 16-19 October, 2006, p. 37.12. I.V. Yaminsky, E.A. Obraztsova, “Protein Imaging: Scanning ProbeMicros>opy”, in book “Protein Structures: Methods in Protein Structure and StabilityAnalysis”, Nova Science Publishers, 2006, p. 199-218.13. E.A. Obraztsova, I.V.
Yaminsky, V.N. Lazarev, “Fluorescent Properties of GreenFluorescent Protein in Water Solution and in Dry Conditions”, Proc. of Summer schoolNanobio, Cargese (France), 19-29 July, 2006, p. 21.14. S.N. Bokova, A.I. Chernov, T.V. Kononenko, G.M. Mikheev, E.A. Obraztsova,Yu.P. Svirko, A.A. Zolotukhin “Optical characterization of pristine and laser-treatednanostructured graphite films”, Book of Abstracts of 20th General Conference of theCondensed Matter Division of European Physical Society, Prague (Czech Republic), 1920 July, 2004, p. 13.25.