TY - CHAP A1 - Haeberle, Jörg A1 - Gaspar, Diana A1 - Barquinha, Pedro A1 - Machulik, Stephan A1 - Janowitz, Christoph A1 - Galazka, Zbigniew A1 - Schmeißer, Dieter T1 - A spectroscopic comparison of AOS thin films and TCO single crystals T2 - Verhandlungen der Deutschen Physikalischen Gesellschaft N2 - Amorphous oxide semiconductors (AOS) and transparent conductive oxides (TCO) are today one of most attractive fields of research in many industrial products, like e.g. high definition, low cost, transparent, and flexible displays. We got the unique possibility to measure a-GIZO and a-SnOx thin films and compare their electronic properties with those of In2O3, Ga2O3, ZnO, and SnO2 single crystals. We use resPES to study the electronic properties. We report on the core levels, the VB PES data, partial Integrated Yield (pIY) and the XAS absorption data. From these we are able to derive the elemental ratio, the pDOS as well as the band scheme. At the O1s resonance we observe multiple Auger processes from which we deduce that a band of localized defect states is located between the Fermi energy and the CBM. The resonant profiles taken at the corresponding metal edges indicate that metal states are involved in the DOS. KW - Amorphous oxide semiconductors (AOS) KW - Transparent conductive oxides (TCO) KW - In2O3 KW - Ga2O3 KW - ZnO KW - SnO2 KW - GIZO KW - resonant photoelectron spectroscopy Y1 - 2014 UR - http://www.dpg-verhandlungen.de/year/2014/conference/dresden/part/hl/session/107/contribution/15?lang=en PB - Deutsche Physikalische Gesellschaft CY - Bad Honnef ER - TY - CHAP A1 - Haeberle, Jörg A1 - Gaspar, Diana A1 - Barquinha, Pedro A1 - Pereira, Luís A1 - Martins, Rodrigo A1 - Fortunato, Elvira A1 - Machulik, Stephan A1 - Janowitz, Christoph A1 - Manzke, Recardo A1 - Schmeißer, Dieter T1 - The Electronic Structure of amorphuos SnOx thin films and SnO2 single crystals T2 - Verhandlungen der Deutschen Physikalischen Gesellschaft N2 - We compare the electronic properties of amorphous p-type SnOx thin film grown by rf magnetron sputtering with those of n-type SnO2 single crystals grown by cvt. We use resPES to study the electronic band structure. We measure the core levels, the VB PES data, partial Integrated Yield (pIY) and the XAS absorption data. From the resPES data recorded at the O1s and the Sn3d edges we derive the VB pDOS and the CB pDOS . The differences are most pronounced in the position of the VBM as for the a-SnOx films there appears a band closer to the Fermi energy. In addition for the SnOx we find in the XAS and pIY data a significant peak that appears right at the Fermi energy. This peak is absent in the single crystalline data. We attribute this to a change in the configuration of the Sn4d states to form a 4d8 configuration instead of 4d9 and 4d10 configurations which are identified in the single crystalline data. KW - electronic structure KW - SnO2 Y1 - 2015 UR - http://www.dpg-verhandlungen.de/year/2015/conference/berlin/part/hl/session/21/contribution/17?lang=en SN - 0420-0195 SP - S. 271 PB - Deutsche Physikalische Gesellschaft CY - Bad Honnef ER - TY - GEN A1 - Haeberle, Jörg A1 - Machulik, Stephan A1 - Janowitz, Christoph A1 - Manzke, Recardo A1 - Gaspar, Diana A1 - Barquinha, Pedro A1 - Schmeißer, Dieter T1 - Gap states in the electronic structure of SnO2 single crystals and amorphous SnOxthin films T2 - Journal of Applied Physics N2 - The electronic structure of a SnO2 single crystal is determined by employing resonant photoelectron spectroscopy. We determine the core level, valence band, and X-ray absorption (XAS) data and compare these with those of amorphous SnOx thin films. We find similar properties concerning the data of the core levels, the valence band features, and the absorption data at the O1s edge. We find strong signals arising from intrinsic in-gap states and discuss their origin in terms of polaronic and charge-transfer defects. We deduce from the XAS data recorded at the Sn3d edge that the Sn4d10 ground state has contributions of 4d9 and 4d8 states due to configuration interaction. We identify localized electronic states depending on the strength of the 4d-5s5p interaction and of the O2p-to-Sn4d charge-transfer processes, both appear separated from the extended band-like states of the conduction band. For the amorphous SnOx thin films, significant differences are found only in the absorption data at the Sn3d-edge due to a stronger localization of the in-gap states. KW - SnO2 KW - electronic structure KW - gap states KW - resonant photoelectron spectroscopy (resPES) Y1 - 2016 U6 - https://doi.org/10.1063/1.4962313 SN - 0021-8979 SN - 1089-7550 VL - 120 IS - 10 SP - 105101-1 EP - 105101-13 ER -