The thin films of Cu2O are deposited by electrodeposition technique onto indium tin oxide(ITO)-coated glass substrate at different potentials. The precursor is an aqueous solution which contains respectively 0.05 M ...The thin films of Cu2O are deposited by electrodeposition technique onto indium tin oxide(ITO)-coated glass substrate at different potentials. The precursor is an aqueous solution which contains respectively 0.05 M of CuSO4 and citric acid at kept temperature of 60℃ and the applied potential varies within the {-0:4 V,-0:7 V}SCE range. Based on the chronocoulometry(CC) process, the electrochemical, structural and optical parameters are determined. We measured the current as function of potential within the {-0:4 V,-0:7 V} range and the higher current is found to be within the {-0:7 V,-0:3 V} band. The grain sizes are of 12.12 nm and 35.47 nm according to(110) and(221) orientations respectively. The high textural coefficient of 0.943 is recorded for the potential -0:7 V.The transmittance of 72.25 %, within the visible band, is obtained for the as-grown layer at -0:4 V and the band gap is found to be 2.2 e V for the electrodeposition potential of -0:7 V.展开更多
基金Project supported the PNR (Nos. 8/U311/R77, U311/R81)the "Agencethematique de rechercheen science ettechnologie" (ATRST)+2 种基金the National Administration of Scientific Researchthe CNEPRU of Oran University of Sciences and Technology (No. B00L02UN310220130011)the Scientific Research Projects Coordination (Nos. 2012-01-01-KAP05, 2012-01-01-KAP06) Yildiz Technical University
文摘The thin films of Cu2O are deposited by electrodeposition technique onto indium tin oxide(ITO)-coated glass substrate at different potentials. The precursor is an aqueous solution which contains respectively 0.05 M of CuSO4 and citric acid at kept temperature of 60℃ and the applied potential varies within the {-0:4 V,-0:7 V}SCE range. Based on the chronocoulometry(CC) process, the electrochemical, structural and optical parameters are determined. We measured the current as function of potential within the {-0:4 V,-0:7 V} range and the higher current is found to be within the {-0:7 V,-0:3 V} band. The grain sizes are of 12.12 nm and 35.47 nm according to(110) and(221) orientations respectively. The high textural coefficient of 0.943 is recorded for the potential -0:7 V.The transmittance of 72.25 %, within the visible band, is obtained for the as-grown layer at -0:4 V and the band gap is found to be 2.2 e V for the electrodeposition potential of -0:7 V.
