公開日期 | 標題 | 作者 | 來源出版物 | WOS | 全文 |
2007 | An off-axis magnetron-sputtering system for in situ studies of artificial superlattices growth by synchrotron radiation scattering | Yuan-Chang Liang ; Lee, H. Y.; Liu, H. J.; Hsieh, Y. W. | Journal of Synchrotron Radiation | 5 | |
2021 | Optimizing crystal characterization of WO3-ZnO composites for boosting photoactive performance via manipulating crystal formation conditions | Liang, Yuan-Chang ; Wang, Yu-Pin | CRYSTENGCOMM | 3 | |
2014 | Performance enhancement of humidity sensors made from oxide heterostructure nanorods via microstructural modifications | Yuan-Chang Liang ; Liao, W. K.; Liu, S. L. | Rsc Advances | 17 | |
2016 | Photoactivity enhancement of zinc sulfide ceramics thin films through ultrathin buffering engineering | Liang, Yuan-Chang ; Wang, Chein-Chung; Lo, Ya-Ju | CERAM INT | 4 | |
2017 | Photoexcited Properties of Tin Sulfide Nanosheet-Decorated ZnO Nanorod Heterostructures | Liang, Yuan-Chang ; Lung, Tsai-Wen; Xu, Nian-Cih | NANOSCALE RES LETT | 17 | |
2009 | Physical properties of low temperature sputtering-deposited zirconium-doped indium oxide films at various oxygen partial pressures | Yuan-Chang Liang | Applied Physics a-Materials Science & Processing | 17 | |
2006 | Physical properties of strained artificial superlattices of (La0.7Ba0.3) MnO3/LaNiO3 | Yuan-Chang Liang ; Lee, H. Y.; Liu, H. J.; Wu, K. F.; Wu, T. B. | Journal of the Electrochemical Society | 3 | |
2008 | Physical properties of strained Ba0.5Sr0.5(Ti,Mn)O-3 thin films buffered with La0.68Ba0.32MnO3 conductive layers | Yuan-Chang Liang ; Chu, J. P. | Electrochemical and Solid State Letters | 16 | |
2015 | Physical synthesis methodology and enhanced gas sensing and photoelectrochemical performance of 1D serrated zinc oxide-zinc ferrite nanocomposites | Yuan-Chang Liang ; Liu, S. L.; Hsia, H. Y. | Nanoscale Research Letters | 17 | |
2014 | Preface: The Biennial TACT International Thin Films Conference (TACT 2013) | Wong, M. S.; Chiu, T. W.; Chu, J. P.; He, J. H.; Hsieh, J. H.; Huang, J. H.; Yuan-Chang Liang ; Lin, M. T.; Wang, F. M.; Yang, Y. C. | Thin Solid Films | 0 | |
2005 | Preparation of heteroepitaxial LaNiO3 thin films on a SrTiO3 substrate for growing an artificial superlattice with RF sputtering | Lee, H. Y.; Hsu, C. H.; Hsieh, Y. W.; Chen, Y. H.; Yuan-Chang Liang ; Wu, T. B.; Chou, L. J. | Materials Chemistry and Physics | 12 | |
2006 | Preparation of La0.7Sr0.3MnO3/LaNiO3 magnetic oxide superlattice structure by rf sputtering | Lee, H. Y.; Liu, H. J.; Hsu, C. H.; Yuan-Chang Liang | Thin Solid Films | 5 | |
2019 | Preparation of Orthorhombic WO3 Thin Films and Their Crystal Quality-Dependent Dye Photodegradation Ability | Liang, Yuan-Chang ; Chang, Che-Wei | COATINGS | 62 | |
2007 | Quantifying strain effects on physical properties of La0.68Ba0.32MnO3 epilayers and heterostructures | Yuan-Chang Liang | Journal of the Electrochemical Society | 6 | |
2017 | Reducing gas-sensing performance of Ce-doped SnO2 thin films through a cosputtering method | Yuan-Chang Liang ; Lee, C. M.; Lo, Y. J. | Rsc Advances | 54 | |
2013 | Self-catalytic crystal growth, formation mechanism, and optical properties of indium tin oxide nanostructures | Yuan-Chang Liang ; Zhong, H. | Nanoscale Research Letters | 11 | |
2018 | Shell Layer Thickness-Dependent Photocatalytic Activity of Sputtering Synthesized Hexagonally Structured ZnO-ZnS Composite Nanorods | Liang, Yuan-Chang ; Lo, Ya-Ru; Wang, Chein-Chung; Xu, Nian-Cih | MATERIALS | 15 | |
2019 | Sputtering control of Ag2O decoration configurations on ZnO nanorods and their surface arrangement effects on photodegradation ability toward methyl orange | Yuan-Chang Liang ; Liu, Y. C.; Hung, C. S. | Nanotechnology | | |
2022 | Sputtering-Assisted Synthesis of Copper Oxide-Titanium Oxide Nanorods and Their Photoactive Performances | Liang, Yuan-Chang ; Li, Tsun-Hsuan | NANOMATERIALS-BASEL | 4 | |
2007 | Strain-dependent surface evolution and magneto-transport properties of La0.7Sr0.3MnO3 epilayers on SrTiO3 substrates | Yuan-Chang Liang | Journal of Crystal Growth | 21 | |