"Shah, A." . "Z(MSM 210000022)" . "Fast and Sensitive Defect Characterisation and Spectral Response Measurement of Thin Film Silicon Solar Structure"@en . . . . . "Wyrsch, N." . . "M\u00FCllerov\u00E1, Lenka" . . "Fast and Sensitive Defect Characterisation and Spectral Response Measurement of Thin Film Silicon Solar Structure" . "Poruba, A." . "2003-05-11+02:00"^^ . . "Rech, B." . . "RIV/68407700:21340/03:04092499" . "Osaka" . "Fast and Sensitive Defect Characterisation and Spectral Response Measurement of Thin Film Silicon Solar Structure"@en . "[5A8EE0E39DA4]" . "RIV/68407700:21340/03:04092499!RIV/2004/MSM/213404/N" . "Osaka" . . . "1"^^ . "Fourier Transform Photocurrent Spectroscopy (FTPS) has been used for a fast and sensitive quality assessment of photovoltaic thin films, such as the microcrystalline silicon. Because the properties of this material strongly depend on the substrate used, we demonstrate here how to utilize the FTPS for measurement of films grown on conductive TCO covered glass substrate, as it is the case of solar cells. Further, we have studied homogeneity of the optoelectronic properties of layers over large areas (30x30 cm2) and for one case correlated the results with the cell efficiency over the area. Moreover, we show a possibility to interpret the FTPS data on cells as the quantum efficiency (spectral response) measurement and to extend the measuring range from near IR over the whole visible region."@en . "Van\u011B\u010Dek, M." . "Fast and Sensitive Defect Characterisation and Spectral Response Measurement of Thin Film Silicon Solar Structure" . . "Fourier Transform Photocurrent Spectroscopy,transparent conductive oxide"@en . "Fourier Transform Photocurrent Spectroscopy (FTPS) has been used for a fast and sensitive quality assessment of photovoltaic thin films, such as the microcrystalline silicon. Because the properties of this material strongly depend on the substrate used, we demonstrate here how to utilize the FTPS for measurement of films grown on conductive TCO covered glass substrate, as it is the case of solar cells. Further, we have studied homogeneity of the optoelectronic properties of layers over large areas (30x30 cm2) and for one case correlated the results with the cell efficiency over the area. Moreover, we show a possibility to interpret the FTPS data on cells as the quantum efficiency (spectral response) measurement and to extend the measuring range from near IR over the whole visible region." . "1"^^ . "607094" . "\u0160pringer, J." . "Abstract Book of the 3rd World Conference of Photovoltaic Energy Conversion" . "Repmann, T." . "Kundig, J." . . "ILE, Osaka University" . . . . "146 ; 146" . "21340" . "9"^^ .