Photoinduced Operation by Absorption of the Chalcogenide Nanocrystallite Containing Solar Cells

Journal title

Archives of Metallurgy and Materials




No 4 December


Divisions of PAS

Nauki Techniczne


Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences




ISSN 1733-3490


Reshak (2014), Jiri Bila Structural electronic and optical properties in earth - abundant photovoltaic absorber of Cu and Cu from DFT calculations, Electrochem Sci, 9, 955. ; Majchrowski (2004), Influence of YAB nanocrystallite sizes on two - photon absorption of YAB, Phys Status Solidi B, 241. ; Sarswat (2011), Demonstration of a sol - gel synthesized bifacial CZTS photoelectrochemical cell, Phys Status Solidi A, 208. ; Sarswat (2012), An evaluation of depletion layer photoactivity in Cu thin film Thin Solid, Films, 13, 520. ; PbCl (2003), induced second harmonic generation in Sb glasses, Phys Chem B, 107. ; Ebrahim (2010), novel / polyaniline base heterojunction solar cell in : Proceedings of the International Conference on Control Automation and Systems Gyeonggi - Do, IEEE, 366. ; Zeenath (2000), Study of trap levels by electrical techniques in p - type CuInSe thin films prepared using chemical bath deposition, Mater Sci, 35, 2619, ; Cherfouh (1870), Preparation and characterization of a new CuInS / graphene composite electrode for application in electrochemical solar cells in : Proceedings of the th Electrochemical Associates New Jersey, Society. ; Sarswat (2012), A comparative study of Co - electrodeposited Cu absorber material on fluorinated tin oxide and molybdenum substrates, Electron Mater, 41, 2210, ; PbCl (2004), stimulated second harmonic generation in Sb glasses, Mod Optic, 51, 1179. ; Brik (2013), Photoinduced features of energy bandgap in quaternary Cu crystals, Phys Condens Mat, 25, 505802, ; Kityk (2000), Band structure of the large - sized SiC nanocomposites, Phys Lett A, 265. ; Ferry (2010), Light trapping in ultrathin plasmonic solar cells, Express, 18, 237, ; Plucinski (2015), Laser stimulated changes of the effective energy gap in chalcogenide CuInS photovoltaic films, Sci Semicon Proc, 38, 184, ; Asenjo (2006), Electrochemical growth and properties of CuInS thin films for solar energy conversion Thin Solid, Films, 511. ; Ebrahim (2011), Preparation and characterization of chalcopyrite compound for thin film solar cells Alexandria Engineering, Journal, 50, 35. ; Shinde (2012), Room temperature novel chemical synthesis of Cu absorbing layer for photovoltaic application, Mater Res Bull, 47, 302, ; Todorov (2010), High - efficiency solar cell with earth - abundant liquid - processed absorber, Mater, 22, 156.