. . "uv-vis spectroelectrochemistry; cyclic voltammetry; single-walled carbon nanotubes; thin films; doping"@en . "Optick\u00E1 spektroelektrochemie in situ m\u011B\u0159en\u00E1 na tenk\u00E9m filmu z jednost\u011Bnn\u00FDch uhl\u00EDkov\u00FDch nanotrubic"@cs . . "RIV/61388955:_____/08:00310179" . . "000257208800009" . "6"^^ . . . "10" . "Journal of Solid State Electrochemistry" . "In situ optical spectroelectrochemistry of single-walled carbon nanotube thin films"@en . . "Byla provedena detailn\u00ED studie optick\u00FDch absorp\u010Dn\u00EDch vlastnost\u00ED tenk\u00FDch film\u016F z jednost\u011Bnn\u00FDch uhl\u00EDkov\u00FDch nanotrubic. D\u00E1le byly studov\u00E1ny zm\u011Bny optick\u00E9 absorpce zm\u00EDn\u011Bn\u00FDch film\u016F v z\u00E1vislosti na vlo\u017Een\u00E9m potenci\u00E1lu."@cs . . . "DE - Spolkov\u00E1 republika N\u011Bmecko" . "371763" . . "Zukalov\u00E1, Mark\u00E9ta" . "5"^^ . "A detailed study is presented on the optical absorption of thin films of single wall carbon nanotubes (SWNT). The procedure for the preparation of free-standing semitransparent films of SWNT is used for the fabrication of a working electrode for transmission optical spectroelectrochemistry. The analysis of the potential dependent spectroscopic response of the SWNT film benefits from the widest possible electrochemical window, in which the charging of SWNT can safely be investigated. This electrochemical window is not limited by parasitic electrochemistry and/or galvanic breakdown reactions occurring at supporting electrode materials such as indium-tin oxide conducting glass or semitransparent Pt film, which were employed in earlier studies. Electrochemical doping of SWNT is observable at the optical absorptions, which are assigned to allowed electronic transitions between van Hove singularities in the density of states of SWNT."@en . "1432-8488" . . . "Tar\u00E1bek, J\u00E1n" . . "In situ optical spectroelectrochemistry of single-walled carbon nanotube thin films" . "12" . . . "A detailed study is presented on the optical absorption of thin films of single wall carbon nanotubes (SWNT). The procedure for the preparation of free-standing semitransparent films of SWNT is used for the fabrication of a working electrode for transmission optical spectroelectrochemistry. The analysis of the potential dependent spectroscopic response of the SWNT film benefits from the widest possible electrochemical window, in which the charging of SWNT can safely be investigated. This electrochemical window is not limited by parasitic electrochemistry and/or galvanic breakdown reactions occurring at supporting electrode materials such as indium-tin oxide conducting glass or semitransparent Pt film, which were employed in earlier studies. Electrochemical doping of SWNT is observable at the optical absorptions, which are assigned to allowed electronic transitions between van Hove singularities in the density of states of SWNT." . "[5931E27C012D]" . "P(LC510), Z(AV0Z40400503)" . . . . "Dunsch, L." . . "Optick\u00E1 spektroelektrochemie in situ m\u011B\u0159en\u00E1 na tenk\u00E9m filmu z jednost\u011Bnn\u00FDch uhl\u00EDkov\u00FDch nanotrubic"@cs . "4"^^ . . "In situ optical spectroelectrochemistry of single-walled carbon nanotube thin films" . "Kalb\u00E1\u010D, Martin" . "Kavan, Ladislav" . "In situ optical spectroelectrochemistry of single-walled carbon nanotube thin films"@en . "RIV/61388955:_____/08:00310179!RIV09-AV0-61388955" . . .