2002
DOI: 10.1016/s0040-6090(02)00170-0
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ITO thin films deposited at low temperatures using a kinetic energy controlled sputter-deposition technique

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Cited by 56 publications
(24 citation statements)
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“…Low-energy magnetron sputtering methods have also been developed to reduce the damages to organic layers. [84][85][86] There have been several successes in demonstrating OPV and OLED devices with sputtered top ITO electrodes; however, the optical and electronic properties for these ITO films with low energy deposition techniques are quite different from commercial ITO electrodes in addition to a very slow deposition process with film growth rates as low as 0.1 Å∕s, 9,87 which need to be further studied and improved for their large-scale applications.…”
Section: Transparent Conductive Oxidesmentioning
confidence: 99%
“…Low-energy magnetron sputtering methods have also been developed to reduce the damages to organic layers. [84][85][86] There have been several successes in demonstrating OPV and OLED devices with sputtered top ITO electrodes; however, the optical and electronic properties for these ITO films with low energy deposition techniques are quite different from commercial ITO electrodes in addition to a very slow deposition process with film growth rates as low as 0.1 Å∕s, 9,87 which need to be further studied and improved for their large-scale applications.…”
Section: Transparent Conductive Oxidesmentioning
confidence: 99%
“…Open Access OJMetal By using the standard formula [23], the values of strain (є), dislocation density (δ) and number of crystallites (N) were calculated.…”
Section: G Saroja Et Almentioning
confidence: 99%
“…On the other hand, the resistivity of polycrystalline doped ZnO thin films has been found to increase drastically when used in hightemperature oxidizing environments; the stability of resistivity was strongly dependent on the film deposition temperature [4][5][6]. Since the fabrication of LCDs frequently requires thin-film deposition at a temperature below approximately 200 °C [7,8], the resistivity stability of doped ZnO thin films prepared at low temperatures must be investigated in activated oxidizing environments such as an atmosphere with high relative humidity. In this paper, the stability of transparent conducting AZO and GZO thin films in a high humidity environment is investigated for the purpose of finding substitutes for ITO thin films used in transparent electrode applications.…”
mentioning
confidence: 99%