公開日期 | 標題 | 作者 | 來源出版物 | WOS | 全文 |
2019 | Design of Nanoscaled Surface Morphology of TiO2-Ag2O Composite Nanorods through Sputtering Decoration Process and Their Low-Concentration NO2 Gas-Sensing Behaviors | Yuan-Chang Liang ; Liu, Y. C. | Nanomaterials | | |
2022 | Design of thin-film configuration of SnO2-Ag2O composites for NO2 gas-sensing applications | Liang, Yuan-Chang ; Hsu, Yu-Wei | NANOTECHNOLOGY REVIEWS | 2 | |
2013 | Design of two-way reversible bending actuator based on a shape memory alloy/shape memory polymer composite | Taya, M.; Yuan-Chang Liang ; Namli, O. C.; Tamagawa, H.; Howie, T. | Smart Materials and Structures | 36 | |
2010 | Effect of conductive oxide buffering on structural and nanoscale electrical properties of ultrathin SrTiO3 films on Pt electrodes | Yuan-Chang Liang | Journal of Crystal Growth | 3 | |
2020 | The effect of Ni content on gas-sensing behaviors of ZnO-NiO p-n composite thin films grown through radio-frequency cosputtering of ceramic ZnO and NiO targets | Yuan-Chang Liang ; Chang, Y. C. | Crystengcomm | | |
2011 | Effects of growth temperature on structure and electrical properties of dielectric (Ba,Sr)TiO3 capacitors with transparent conducting oxide electrodes | Yuan-Chang Liang ; Huang, C. L.; Hu, C. Y. | Journal of Alloys and Compounds | 13 | |
2006 | Effects of lattice modulation on magnetic properties of epitaxial ferromagnetic/paramagnetic manganite superlattices | Yuan-Chang Liang | Journal of Crystal Growth | 5 | |
2019 | Effects of sputtering deposited homoseed layer microstructures on crystal growth behavior and photoactivity of chemical route-derived WO3 nanorods | Yuan-Chang Liang ; Hung, C. S. | Crystengcomm | | |
2005 | Effects of substrate temperature on the physical properties of strained BaTiO3/LaNiO3 artificial superlattices | Yuan-Chang Liang | Journal of Crystal Growth | 17 | |
2012 | Effects of ultrathin layers on the growth of vertically aligned wurtzite ZnO nanostructures on perovskite single-crystal substrates | Yuan-Chang Liang ; Hu, C. Y.; Zhong, H. | Applied Surface Science | 15 | |
2021 | Enhanced Sensing Ability of Brush-Like Fe2O3-ZnO Nanostructures towards NO2 Gas via Manipulating Material Synergistic Effect | Liang, Yuan-Chang ; Hsu, Yu-Wei | INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES | 6 | |
2019 | Enhancement of Acetone Gas-Sensing Responses of Tapered WO3 Nanorods through Sputtering Coating with a Thin SnO2 Coverage Layer | Yuan-Chang Liang ; Chao, Y. | Nanomaterials | | |
2009 | Enhancement of Nanoscale Leakage Current Performance of Bismuth Ferrite Thin Films Using Conductive Oxide Electrodes | Yuan-Chang Liang | Journal of the Electrochemical Society | 10 | |
2007 | Fabrication and electrical properties of strain-modulated epitaxial Ba0.5Sr0.5TiO3 thin-film capacitors | Yuan-Chang Liang | Journal of the Electrochemical Society | 14 | |
2009 | Fabrication and opto-electric properties of ITO/ZnO bilayer films on polyethersulfone substrates by ion beam-assisted evaporation | Liu, C. C.; Yuan-Chang Liang ; Kuo, C. C.; Liou, Y. Y.; Chen, J. W.; Lin, C. C. | Solar Energy Materials and Solar Cells | 11 | |
2016 | Fabrication and reducing gas detection characterization of highly-crystalline p-type zinc chromite oxide thin film | Yuan-Chang Liang ; Cheng, Y. R.; Hsia, H. Y.; Chung, C. C. | Applied Surface Science | 10 | |
2014 | Fabrication and sensing behavior of one-dimensional ZnO-Zn2GeO4 heterostructures | Yuan-Chang Liang ; Lin, T. Y. | Nanoscale Research Letters | 12 | |
2017 | Fabrication of Nanosized Island-Like CdO Crystallites-Decorated TiO2 Rod Nanocomposites via a Combinational Methodology and Their Low-Concentration NO2 Gas-Sensing Behavior | Yuan-Chang Liang ; Xu, N. C.; Wang, C. C.; Wei, D. H. | Materials | 18 | |
2021 | Formation and Application of Core-Shell of FePt-Au Magnetic-Plasmonic Nanoparticles | Wei, Da-Hua; Lin, Tei-Kai; Liang, Yuan-Chang ; Chang, Huang-Wei | FRONTIERS IN CHEMISTRY | 7 | |
2011 | Forming Gas Annealing Induced Degradation in Nanoscale Electrical Homogeneity of Bismuth Ferrite Thin Films | Yuan-Chang Liang | Journal of the Electrochemical Society | 3 | |