Suresh, Kumar
Published in
International Journal of Materials Research
The present work elucidates a study on the synthesis and characterization of nanostructured NiS thin films, an optical absorber material. NiS films have been deposited on glass substrates using a simple and cost-effective chemical solution route. The deposition process has been accomplished using an aqueous solution of nickel chloride, thiourea, am...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...
Yue, Zhao Ma, L. Wu, W. Suo, H.-L. Grivel, Jean-Claude
Chemical solution deposition is a versatile technique to deposit functional oxide films with low cost. In this study, this approach was employed to grow multi-layered, second-generation, high-temperature superconductors ("coated conductors") with high superconducting properties. The Ce0.9La0.1O2/Gd2Zr2O7 buffer layer stack and the 200 nm thick YBa2...