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Phthalocyanines thin film

Mazur U, Hipps KW (1999) Orbital-mediated tunneling, inelastic electron tunneling, and electrochemical potentials formetal phthalocyanine thin films. J Phys Chem B103 9721-9727... [Pg.83]

Yamane H, Yabuuchi Y, Fukagawa H, Kera S, Okudaira KK, Ueno N (2006) Does the molecular orientation induce an electric dipole in Cu-phthalocyanine thin films J Appl Phys 99 5... [Pg.207]

Cook MJ, Chambrier I (2003) Phthalocyanine thin films and structural studies In Kadish KM, Smith KM, Guilard R (eds) Porphyrin handbook, phthalocyanine properties and materials, vol 17, Chap 108. Academic Press, New York... [Pg.86]

Cook MJ (1999) Phthalocyanine thin films. Pure Appl Chem 71(11) 2145—2151... [Pg.86]

Baltog 1, Baibarac M, Lefrant S (2005) Coherent anti-stokes Raman scattering on single-walled carbon nanotubes and copper phthalocyanine thin films excited through surface plasmons. J Opt A Pure Appl Opt 7 632... [Pg.117]

Figure 17. Effect of front side and back side illumination of semiconductor electrodes coated with phthalocyanine thin films. The direction of the photocurrent could be controlled by illumination direction and the redox couple in the solution. Figure 17. Effect of front side and back side illumination of semiconductor electrodes coated with phthalocyanine thin films. The direction of the photocurrent could be controlled by illumination direction and the redox couple in the solution.
Molecular Interactions Between Alcohols and Metal Phthalocyanine Thin Films for Optical Gas Sensor Applications... [Pg.196]

Figure 5. O Is XPS spectra of Pb phthalocyanine thin films after different treatments. a as preparation imder UHV(ultra-high-vacuum) conditions, b afler exposure of UHV-prepared films to air, c afler the air-exposed filmes in SOOmbar O2 at 423K[7]. Figure 5. O Is XPS spectra of Pb phthalocyanine thin films after different treatments. a as preparation imder UHV(ultra-high-vacuum) conditions, b afler exposure of UHV-prepared films to air, c afler the air-exposed filmes in SOOmbar O2 at 423K[7].
Spadavecchia J., Ciccarella G., Valli L., and Rella R., A novel multisensing optical approach based on a single phthalocyanine thin films to monitoring volatile organic compounds. Sens. Actuators B, 113, 516-525, 2006. [Pg.92]

Rella R., Siciliano P., Capone S., Spadavecchia ., Ciccarella G., and Vasapollo G., Optical sensing properties of phthalocyanines thin films in array configuration and their application in VOCS detection, pp. 115-120, Sensors and microsystems. Proceedings of the 8th Italian Conference, Trento, Italy, 12-14 February 2003. [Pg.92]

Del Cano T., Parra V., Rodriguez-Mendez M. L., Aroca R. R, and De Saja J. A., Characterization of evaporated trivalent and tetravalent phthalocyanines thin films different degree of organization, Appl. Surf. Sci., 246, 327-333, 2005. [Pg.93]

Toshima, N., Tominaga, T., and Kawamura, S. (1996) Reversible electrochromism of copper phthalocyanine thin film. Bull. Chem. Soc. Jpn., 69, 245-253. [Pg.266]

Electrochemical and solid state studies of phthalocyanine thin film electrodes. J. Am. Chem. Soc., 100, 4379 385. [Pg.269]

Santerre, F., Cote, R., Veilleux, G., Saint-Jacques, R.G., and Dodelet, J.P. (1996) Highly photoactive molecular semiconductors determination of the essential parameters that lead to an improved photoactivity for modified diloroaluminum phthalocyanine thin films./. Phys. Chem.. 100, 7632-7645. [Pg.269]

Klofla, T.J., Sims, T.D., Pankow, J.W., Danziger,)., Nebesny, K.W., and Armstrong, N.R. (1987) Spectroscopic and photoelectrochemical studies of trivalent metal phthalocyanine thin films the role of gaseous dopants (oxygen and hydrt en) in determining photoelectrochemical response. /. Phys. Chem., 91, 5651-5659. [Pg.269]

Klofla, T Rieke, P., Unkous, C., Buttner, W.J., Nanthakumar, A., Mewbom, T.D., and Armstrong, N.R. (1985) Tri- and tetravalent phthalocyanine thin film electrodes comparison with other metal and demetaUated phthalocyanine systems. [Pg.269]

Rieke, P.C. and Armstrong, N.R. (1984) Light-assisted, aqueous redox reactions at chlorogallium phthalocyanine thin-film photoconductors dependence of the photopotential on the formal potential of the redox couple and evidence for photoassisted hydrogen evolution. I. Am. Chem. Soc., 106, 47-50. [Pg.269]

Yanagi, H., Douko, S., Ueda, Y., Ashida, M., and Wdhrle, D. (1992) Improvement of photoelectrochemical properties of chloroaluminum phthalocyanine thin films by controlled crystallization and molecular orientation.. Phys. [Pg.270]

Meyer, J.-P. and Schlettwein, D. (1996) Influence of central metal and ligand system on conduction type and charge carrier transport in phthalocyanine thin films. Adv. Mater. Opt. Electron., 6, 239-244. [Pg.270]

B. A. (1993) Phthalocyanine aggregates on metal dichalcogenide surfeces dye sensitization on tin disulfide semiconductor electrodes by ordered and disordered diloroindium phthalocyanine thin films. J. Phys. Chem., 97, 2690 2698. [Pg.271]

Polymeric metal-containing (Cu, Mg, Zn, and Ni) and metal-free phthalocyanine thin films were prepared from the gas phase by low-temperature plasma polymerization [115, 116]. The plasma-polymerized CuPc (pp-CuPc) obtained was a glossy greenish thin film with a thickness of 60-300 nm. The film was smooth and even, and was soluble neither in pyridine nor in concentrated sulfuric acid, both of which are good solvents for monomeric CuPc. [Pg.85]

The intermittent plasma-assisted vacuum deposition technique has been found to introduce the effective electrocatalytic activity and stability for CO2 reduction into metal phthalocyanine thin films formed on a glassy carbon. The films properties are significantly influenced by the chemical state of the Aim. It has been suggested that the electrode process is determined by the surface chemical reaction involving adsorbed H and/or H+ and a carbon containing intermediate ". ... [Pg.227]

Tanabe, H. and K. Ohno (1987). Electrocatalysis of metal phthalocyanine thin film prepared by the plasma-assisted deposition on a glassy carbon in the reduction of carbon dioxide. Electrochim. Acta, 32(7), 1121-1124. [Pg.250]

Li, H. and T.F. Guarr (1999). Reversible electrochromism in polymeric metal phthalocyanine thin films. J. Electroanal. Chem. 297,169-183. [Pg.431]

Brinkmann, M., S. Graff, C. Chaumont, and J.-J. Andre (1999). Electrodeposition of lithium phthalocyanine thin films Part I. Structure and morphology. J. Mater Res. 14(5), 2163-2172. [Pg.434]

Schlettwein, D., K. Hesse, N. Gruhn, P.A. Lee, K.W. Nebesny, and N.R. Armstrong (2001). Electronic energy levels in individual molecules, thin films, and organic heterojunctions of substituted phthalocyanines. J. Phys. Chem. B 105, 4791 800. Minami, N., T. Watanabe, A. Fujishima, and K.-I. Honda (1979). Photoelectrochemi-cal study on copper phthalocyanine films. Ber. Bunsenges. Phys. Chem. 83, 476-481. Santerre, F., R. Cote, G. Veilleux, R.G. Saint-Jacques, and J.R Dodelet (1996). Highly photoactive molecular semiconductors Determination of the essential parameters that lead to an improved photoactivity for modified chloroaluminum phthalocyanine thin films. J. Phys. Chem. 100, 7632-7645. [Pg.504]

See other pages where Phthalocyanines thin film is mentioned: [Pg.590]    [Pg.620]    [Pg.640]    [Pg.656]    [Pg.196]    [Pg.37]    [Pg.389]    [Pg.232]    [Pg.236]    [Pg.236]    [Pg.237]    [Pg.241]    [Pg.266]    [Pg.269]    [Pg.270]    [Pg.351]    [Pg.470]    [Pg.475]    [Pg.494]    [Pg.503]   
See also in sourсe #XX -- [ Pg.242 ]



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