Ferroelectricity and Computing
Ferroelectricity and Computing
JJJason
Explore cutting-edge advancements in ferroelectric hafnia, a revolutionary material driving the future of memory and data processing technologies. Dive into the intersections of materials science, machine learning, and quantum computing, where groundbreaking discoveries are shaping the next generation of electronics.
Computational Design of Amorphous Materials
The amorphous state as a frontier in computational materials design
Dec 21, 2024
38 min
Low-thermal-hysteresis Shape-memory Ceramics
The thermal hysteresis of the tetragonal-monoclinic martensitic phase transformation in zirconia-based shape-memory ceramics.
Dec 21, 2024
13 min
Fundamentals and Applications of Ferroelectric Hafnia
The origins of ferroelectricity in Hafnium oxide, emphasizing the roles of thermodynamic and kinetic factors, including doping, oxygen concentration, and stress/strain.
Dec 21, 2024
19 min
Metal-Oxide Interactions in Catalysis
Nature of metal-oxide interaction for metal catalysts
Dec 19, 2024
16 min
Machine Learning Guided Dopant Selection for Photocatalysis
Machine learning integrated photocatalysis
Dec 15, 2024
38 min
Machine Learning of Energy Materials
A Critical Review of Machine Learning of Energy Materials
Dec 15, 2024
29 min
Willow Chip
Willow chip and quantum error correction by Google Quantum
Dec 15, 2024
12 min
Pulsed Laser Deposition
A practical guide to pulsed laser deposition
Dec 15, 2024
37 min
Zeolite Phase Transformation and Intergrowth
Graph similarity, high-throughput simulations, and literature mining on zeolite synthesis and transformation.
Dec 14, 2024
20 min
Epitaxial La-doped Hafnium Zirconium Oxide
Dec 13, 2024
25 min