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Applied Physics Letters

Acta Crystallographica Applied Physics Letters Carbon... [Pg.34]

Bariain, C., Mati as, I.R., Romeo, L, Garrido, J. and Laguna, M. (2000) Detection of volatile organic compound vapors by using a vapochromic material on a tapered optical fiber. Applied Physics Letters, 77(15), 2274-2276. [Pg.171]

Oldenburg, S.J., Jackson, J.B., Westcott, S.L. and Halas, N.J. (1999) Infrared extinction properties of gold nanoshells. Applied Physics Letters, 75, 2897-2899. [Pg.346]

Figure 1.4 (A) Current-time curves for Au wires etched in a mixture of HChethanol (1 Iv/v) at different voltages. (B) SEM images ofthe etched Au tips. A 2.1 V, B 2.2 V, C 2.4 V. Reprinted with permission from Xi Wang, Applied Physics Letters, 91, 101105 (2007). Copyright 2007, American Institute of Physics. Figure 1.4 (A) Current-time curves for Au wires etched in a mixture of HChethanol (1 Iv/v) at different voltages. (B) SEM images ofthe etched Au tips. A 2.1 V, B 2.2 V, C 2.4 V. Reprinted with permission from Xi Wang, Applied Physics Letters, 91, 101105 (2007). Copyright 2007, American Institute of Physics.
Wang, S.J., Cheng, G., Jiang, X.H., Li, Y.C., Huang, Y.B., and Du, Z.L. (2006) Direct observation of photoinduced charge redistribution of WCfi—Ti02 double layer nanocomposite films by photoassisted Kelvin force microscopy. Applied Physics Letters, 88 (21), 212108. [Pg.126]

Srikanfh, H., Hajndl, R., Chirinos, C. and Sanders, J. (2001) Magnetic studies of polymer-coated Fe nanopartides synthesized by microwave plasma polymerization. Applied Physics Letters, 79, 3503-3505. [Pg.237]

Wolfe, D.B., Love, J.C., Paul, K.E., Chabinyc, M.L. and Whitesides, G.M., Fabrication of palladium-based microelectronic devices by microcontact printing, Applied Physics Letters, 80, 2222, 2002. [Pg.533]

Xu, T., Zach, M.P., Xiao, Z.L., Rosenmann, D., Welp, U., Kwok, W.K. and Crabtree, G.W., Self-assembled monolayer-enhanced hydrogen sensing with ultra thin palladium films, Applied Physics Letters, 86, 203104, 2005. [Pg.534]

Brown E, Hao L, Gallop JC, Macfarlane JC (2005) Ballistic thermal and electrical conductance measurements on individual multi wall carbon nanotubes. Applied Physics Letters 87 2-3. [Pg.258]

Kouklin N, Tzolov M, Straus D, Yin A, Xu JM (2004) Infrared absorption properties of carbon nanotubes synthesized by chemical vapor deposition. Applied Physics Letters 85 4463 1465. [Pg.261]

Wang Y, Kempa K, Kimball B, Carlson JB, Benham G, Li WZ, Kempa T, Rybczynski J, Herczynski A, Ren ZF (2004a) Receiving and transmitting light-like radio waves antenna effect in arrays of aligned carbon nanotubes. Applied Physics Letters 85 2607-2609. [Pg.266]

A. Scott, A. Dianat, F. Borrnert, A. Bachmatiuk, S. Zhang, J.H. Warner, et al., The catalytic potential of high-K dielectrics for graphene formation, Applied Physics Letters, 98 (2011) 073110. [Pg.40]

J. Sun, N. Lindvall, M.T. Cole, K.B.K. Teo, A. Yurgens, Large-area uniform graphene-like thin films grown by chemical vapor deposition directly on silicon nitride, Applied Physics Letters, 98 (2011) 252107. [Pg.40]

T.J. McArdle, J.O. Chu, Y. Zhu, Z. Liu, M. Krishnan, C.M. Breslin, et al., Multilayer epitaxial graphene formed by pyrolysis of polycrystalline silicon-carbide grown on c-plane sapphire substrates, Applied Physics Letters, 98 (2011) 132108. [Pg.41]

Rout, C.S., et al., Au nanoparticles on graphitic petal arrays for surface-enhanced Raman spectroscopy. Applied Physics Letters, 2010. 97(13) p. 133108-133103. [Pg.163]

Yu, K., et al., Significant improvement of field emission by depositing zinc oxide nanostructures on screen-printed carbon nanotube films. Applied Physics Letters, 2006. 88(15) p. 153123. [Pg.169]

Kim, H. and W. Sigmund, Zinc oxide nanowires on carbon nanotubes. Applied Physics Letters, 2002. 81(11) p. 2085-2087. [Pg.169]

E. Comini, G. Faglia, G. Sberveglieri, Z.W. Pan, and Z.L. Wang. Stable and highly sensitive gas sensors based on semiconducting oxide nanobelts . Applied Physics Letters 81 (2002), 1869-1871. [Pg.113]

Manke, Ch. Hartnig, M. Grunerbel, et al. Investigation of water evolution and transport in fuel cells with high resolution synchrotron x-ray radiography. Applied Physics Letters 90 (2007) 174105-1-174105-3. [Pg.301]

M. Yamada, N. Nada, M. Saitoh, and K. Watanabe, First-order quasi-phase matched LiNbOs wave-guide periodically poled by applying an external-field for efficient blue second-harmonic generation. Applied Physics Letters 62(5), 435-436 (1993). [Pg.226]

H. Karlsson, F. Laurell, and L.K. Cheng, Periodic poling of RbTiOPQ for quasi-phase matched blue light generation. Applied Physics Letters 74(11), 1519-1521 (1999). [Pg.226]

H. Karlsson and F. Laurell, Electric field poling of flux grown KTiOPQ, Applied Physics Letters 71(24), 3474-3476 (1997). [Pg.226]

C. Canalias, J. Hirohashi, V. Pasiskevicius, and F. Laurell, Polarization switching characteristics of flux grown KTi0P04 and RbTi0P04 at room temperature, Applied Physics Letters (submitted), (2005). [Pg.226]

D.J.L.B. Birkin, E.U. Rafailov, G.S. Sokolovskii, W. Sibbett, G.W. Ross, P.G.R. Smith, and D.C. Hanna, 3.6mW blue light by direct frequency-doubling of a diode laser using an aperiodically-poled lithium niobate crystal. Applied Physics Letters 78(21), 3172-3174 (2001). [Pg.228]

See other pages where Applied Physics Letters is mentioned: [Pg.685]    [Pg.349]    [Pg.351]    [Pg.28]    [Pg.125]    [Pg.129]    [Pg.534]    [Pg.556]    [Pg.104]    [Pg.68]    [Pg.354]    [Pg.355]    [Pg.355]    [Pg.116]    [Pg.226]    [Pg.226]    [Pg.53]    [Pg.163]    [Pg.164]    [Pg.168]    [Pg.168]    [Pg.248]    [Pg.249]    [Pg.250]    [Pg.253]    [Pg.254]   
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