Controlled piezotronic properties on recoverable energy storage density in rare-earth ions doped epitaxial PZT thin films

Engineering & Materials Science

• Rare earths 100%
• Lead zirconate titanate 98%
• Thin films 76%
• Ions 74%
• Energy storage 71%
• Doping (additives) 27%
• Diffraction 17%
• Polarization 14%
• X rays 14%
• Photoelectron spectroscopy 13%
• Pulsed laser deposition 12%
• Domain walls 12%
• Ferroelectric materials 10%
• Crystallinity 9%
• Hysteresis loops 9%
• Electrons 8%
• Scattering 7%
• Electric fields 7%
• Oxidation 7%

Physics & Astronomy

• energy storage 89%
• rare earth elements 69%
• thin films 41%
• ions 37%
• polarization 17%
• x ray spectroscopy 16%
• domain wall 15%
• crystallinity 14%
• x ray diffraction 14%
• photoelectron spectroscopy 13%
• hysteresis 12%
• oxidation 11%
• augmentation 9%
• electric fields 9%
• coefficients 8%
• diffraction 8%
• scattering 8%
• electrons 6%

Chemical Compounds

• Energy Storage 69%
• Lanthanoid Atom 61%
• Kikuchi Reaction 28%
• Piezoelectric Coefficient 25%
• Polarization 24%
• Liquid Film 23%
• Purity 16%
• Photoelectron Spectroscopy 16%
• Hysteresis 15%
• Electric Field 14%
• Doping Material 14%
• Compound Mobility 12%
• Crystallinity 12%
• Donor 11%
• Electron Particle 8%
• Oxidation Reaction 7%
• Ion 6%