Rare-earth-containing perovskite nanomaterials: design, synthesis, properties and applications
Z Zeng, Y Xu, Z Zhang, Z Gao, M Luo, Z Yin… - Chemical Society …, 2020 - pubs.rsc.org
As star material, perovskites have been widely used in the fields of optics, photovoltaics,
electronics, magnetics, catalysis, sensing, etc. However, some inherent shortcomings, such …
electronics, magnetics, catalysis, sensing, etc. However, some inherent shortcomings, such …
Understanding doping of quantum materials
Doping mobile carriers into ordinary semiconductors such as Si, GaAs, and ZnO was the
enabling step in the electronic and optoelectronic revolutions. The recent emergence of a …
enabling step in the electronic and optoelectronic revolutions. The recent emergence of a …
Nanoscale multistate resistive switching in WO3 through scanning probe induced proton evolution
Multistate resistive switching device emerges as a promising electronic unit for energy-
efficient neuromorphic computing. Electric-field induced topotactic phase transition with ionic …
efficient neuromorphic computing. Electric-field induced topotactic phase transition with ionic …
Solution-processable electrochromic materials and devices: roadblocks and strategies towards large-scale applications
Electrochromic devices (ECDs) that modulate optical transmission or reflection in a
controllable manner are attractive in energy-saving and colour-tuning applications. In this …
controllable manner are attractive in energy-saving and colour-tuning applications. In this …
Defects in complex oxide thin films for electronics and energy applications: challenges and opportunities
Complex transition-metal oxides (TMOs) are critical materials for cutting-edge electronics
and energy-related technologies, on the basis of their intriguing properties including …
and energy-related technologies, on the basis of their intriguing properties including …
Quantum sensing for energy applications: Review and perspective
On its revolutionary threshold, quantum sensing is creating potentially transformative
opportunities to exploit intricate quantum mechanical phenomena in new ways to make …
opportunities to exploit intricate quantum mechanical phenomena in new ways to make …
Tuning the Energy Band Structure at Interfaces of the SrFe0.75Ti0.25O3−δ–Sm0.25Ce0.75O2−δ Heterostructure for Fast Ionic Transport
Interface engineering holds huge potential for enabling exceptional physical properties in
heterostructure materials via tuning properties at the atomic level. In this study, a …
heterostructure materials via tuning properties at the atomic level. In this study, a …
Unveiling strong ion–electron–lattice coupling and electronic antidoping in hydrogenated perovskite nickelate
L Gao, H Wang, F Meng, H Peng, X Lyu… - Advanced …, 2023 - Wiley Online Library
Despite being highly promising for applications in emergent electronic devices, decoding
both the ion–electron–lattice coupling in correlated materials at the atomic scale and the …
both the ion–electron–lattice coupling in correlated materials at the atomic scale and the …
False metals, real insulators, and degenerate gapped metals
This paper deals with a significant family of compounds predicted by simplistic electronic
structure theory to be metals but are, in fact, insulators. This false metallic state has been …
structure theory to be metals but are, in fact, insulators. This false metallic state has been …
Machine learning classical interatomic potentials for molecular dynamics from first-principles training data
The ever-increasing power of modern supercomputers, along with the availability of highly
scalable atomistic simulation codes, has begun to revolutionize predictive modeling of …
scalable atomistic simulation codes, has begun to revolutionize predictive modeling of …