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Mater structures

Loewy, R.G. Recent Developments in Smart Structures with Aeronautical Applications. Smart Mater. Structures, Vol. 6, No. 5 (1997) pp. R11-R42 Giurgiutiu, V. Review of Smart-Materials Actuation Solutions for Aerodastic and Vibration Control. J. Int. Mat. Syst. Struct., 11 (2000) pp. 525-544 Staszewski, W.J. Boiler, C. and Tomlinson, G.R. Health Monitoring of Aerospace Structures. Wiley (2003)... [Pg.457]

Van Hove M A, Moritz W, Over H, Rous P J, Wander A, Barbieri A, Materer N, Starke U and Somorjai G A 1993 Automated determination of complex surface structures by LEED Surf. Sc . Rep 19 191-229... [Pg.1777]

Oshida, K., Kogiso, K., Matsubayashi, K., Takeuchi, K., Kobayashi, S., Endo, M., Dressclhaus, M. S., Drcsselhaus, G., Analysis of pore structure of activated carbon fibers using high resolution transmission electron microscopy and image processing, 7. Mater. Res., 1995, 10(10), 2507 2517. [Pg.112]

Griinberg, P. (2000) Layered magnetic structures in research and application, Acta Mater. 48, 239. [Pg.420]

F. Burmeister, C. Schlafle, B. Keilhofer, C. Bechinger, J. Boneberg, P. Leiderer. From mesoscopic to nanoscopic surface structures lithography with colloid monolayers. Adv Mater 70 495—497, 1998. [Pg.66]

Structures of different conjugated polymers including various thiophenes (3,4,8,9,10,11) and pyrroles 12,5,6,7) that show color variation. (From A. A. Argun. R Aubert, B. Thompson, I. Schwendeman, C. L. Gaupp, J. Hwang. N. J. Pinto. D. B. Tanner, A. G. MacDiarmid, J. R. Reynolds "Multielectrochromism in Polymers Structures and Devices" Chem. Mater. 2004, 1B, 4401-4412). [Pg.93]

Fig. 31 Crystal structure of Rb sNb30Ft8. Projection on the plane (001). Numbers in brackets are the atom coordinates on the z-axis in percents of c parameter. Structure of NbOFj chains and NbFf polyhedron. Reproduced from [209], A. I. Agulyansky, V. E. Zavodnik, V. Y. Kuznetzov et al. Neorgan. Mater. 27 (1991) 380, Copyright 1991, with permission of Nauka (Russian Academy of Sciences) publishing. Fig. 31 Crystal structure of Rb sNb30Ft8. Projection on the plane (001). Numbers in brackets are the atom coordinates on the z-axis in percents of c parameter. Structure of NbOFj chains and NbFf polyhedron. Reproduced from [209], A. I. Agulyansky, V. E. Zavodnik, V. Y. Kuznetzov et al. Neorgan. Mater. 27 (1991) 380, Copyright 1991, with permission of Nauka (Russian Academy of Sciences) publishing.
Saitoh, H., Yoshida, K., and Yarborough, W., Crystal Structure of New Composition Boron Rich Boron Nitride Using Raman Spectroscopy, J. Mater. Res., 8(1) 8-11 (Jan. 1993)... [Pg.290]

Koidl, R, Wild, Ch., Dischler, B., Wagner, J., and Ramsteiner, M., Plasma Deposition, Properties and Structure of Amorphous Hydrogenated Carbon Films, Mater. Sci. Forum, Vol. [Pg.162]

Zhenyu Zhang, Xinchun Lu, Jianbin Luo, Yang Liu, Chenhui Zhang, Preparation and Characterization of Fa203 Doped Diamond-Like Carbon Nanofilms (I) Structure Analysis," Diamond Relat. Mater., Vol. 16, No. 11, 2007, pp. 1905-1911. [Pg.163]

Li Q, Walter EC, van der Veer WE, Murray BJ, Newberg JT, Bohannan EW, Switzer JA, Hemminger JC, Penner RM (2005) Molybdenum disulfide nanowires and nanoribbons by electrochemical/chemical synthesis. J Phys Chem B 109 3169-3182 Tenne R, Homyonfer M, Feldman Y (1998) Nanoparticles of layered compounds with hollow cage structures (inorganic fuUerene-like structures). Chem Mater 10 3225-3238 Shibahara T (1993) Syntheses of sulphur-bridged molybdenum and tungsten coordination compounds. Coord Chem Rev 123 73-147... [Pg.55]

Ruach-Nir I, Wagner HD, Rubinstein I, Hodes G (2003) Structural effects in the electrodeposition of CdSe quantum dots on mechanically strained gold. Adv Eunct Mater 13 159-164... [Pg.204]

Taylor CD, Neurock M. 2005. Theoretical insights into the structure and reactivity of the aqueous/metal interface. Curr Opin Solid State Mater Sci 9 49-65. [Pg.127]

Crown A, Kin H, Lu GQ, de Moraes IR, Rice C, Wieckowski A. 2000. Research toward designing high activity catalysts for fuel cells Structure and Reactivity. J New Mater Electrochem Syst 3 275. [Pg.405]

Liu, Y. H., and Zumbrunnen, D. A., Toughness enhancement in polymer blends due to the in-situ formation by chaotic mixing of fine-scale extended structures, J. Mater. Sci. 34, 1921-1931 (1999). [Pg.201]

Wang Y, Tang X, Lin L, Huang W, Haochen Y, Gedanken A (2000) Sonochemical synthesis of mesoporous titanium oxide with wormhole-like framework structures. Adv Mater 12 1183-1186... [Pg.169]

Elbaum R, Vega S, Hodes G (2001) Preparation and surface structure of nanocrystalline cadmium sulfide (sulfoselenide) precipitated from dimethyl sulfoxide solutions. Chem Mater 13(7) 2272-2280... [Pg.211]

Cussen EJ, Lynham DR, Rogers J (2006) Magnetic order arising from structural distortion structure and magnetic properties of Ba2LnMo06. J Chem Mater 18 2855-2866... [Pg.312]

Huang YH, Fjellvag H, Karppinen M, Hauback BC, Yamuchi H, Goodenough JB (2006) Crystal and magnetic structure of the orthorhombic perovskite YbMn03. Chem Mater 18 2130-2134... [Pg.312]

Gauthier G, Jobic S, Evain M, Koo HJ, Whangbo MH, Fouassier C, Brec R (2003) Synthesis, structures and optical properties of yellow Ce2SiS5 Ce6Si4S17, and Ce4Si3S12 materials. Chem Mater 15 828-837... [Pg.312]

Shiga T, Hirose Y, Okada A, Kurauchi T (1993) J Intel Mater Systems Structures 4 553-557... [Pg.164]

Nakanishi, K. (1997). Pore structure control of silica gels based on phase separation. J. Porous Mater. 4, 67-112. [Pg.174]

O. Ito and T. Fujiwara, Electronic Structure Analysis of Intermetallics for Crystal Structure Changes in Nb3Al, Modelhng Simul. Mater. Sci. Eng., 2, 363 (1994). [Pg.116]

Alonso, J. A., Martinez-Lopez, M. J., Casais, M. T., Martinez, J. L., Demaseau, G., Largeteau, A., Garcia-Munoz, J. L., Munoz, A., Femandez-Diaz, M. T., High-pressure preparation, crystal structure, magnetic properties, and phase transitions in GdNi03 and DyNiOs perovskites, Chem. Mater. 11, 2463-2469 (1999). [Pg.508]

Fig. 2.17 Three structure candidates (A, B, and C) of alkyl-ammonium/magnesium phyllosilicate hybrids. Reprinted with permission from [88], K. Fuji etal., Chem. Mater., 2003, 75,1189. Fig. 2.17 Three structure candidates (A, B, and C) of alkyl-ammonium/magnesium phyllosilicate hybrids. Reprinted with permission from [88], K. Fuji etal., Chem. Mater., 2003, 75,1189.
MJ. Schoning, M.H. Abouzar, S. Ingebrandt, J. Platen, A. Offenhauser, and A. Poghossian, Towards label-free detection of charged macromolecules using field-effect-based structures scaling down from capacitive EIS sensor over ISFET to nano-scale devices, in Mater. Res. Soc. Symp. Proc. 915, 0915-R05-04 (2006). [Pg.234]

Ogura, S., Kohno, M., Sato, K., and Inoue, Y., Effects of RuOz on activity for water decomposition of a Ru02/Na2Ti307 photocatalyst with zigzag layer structure,. Mater. Chem., 8,2335,1998. [Pg.280]

Ashwell GJ, Berry M (2005) Hybrid SAM/LB device structures manipulation of the molecular orientation for nanoscale electronic applications. J Mater Chem 15 108-110... [Pg.84]

Dickey MD, Chiechi RC, Larson RJ, Weiss EA, Weitz DA, Whitesides GM (2008) Eutectic gallium-indium (EGaln) a liquid metal alloy for the formation of stable structures in microchannels at room temperature. Adv Funct Mater 18 1097—1104... [Pg.114]

Tulsky, E. G Long, J. R. 2001. Dimensional reduction A practical formalism for manipulating solid structures. Chem. Mater. 13 1149-1166. [Pg.105]

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See also in sourсe #XX -- [ Pg.269 ]



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