Far-from-equilibrium effects of electric and electromagnetic fields in ceramics synthesis and processing
B Reeja-Jayan, J Luo - MRS Bulletin, 2021 - Springer
Electric and electromagnetic fields can promote far-from-equilibrium chemical reactions,
phase transformations, and microstructural evolution. On the one hand, both direct electric …
phase transformations, and microstructural evolution. On the one hand, both direct electric …
Flash sintering improves the densification and mechanical properties of high entropy oxides used in anodic applications
High entropy oxides (HEOs) have multi-cation disordered chemical structure that makes it
suitable as anode for battery applications.(Mg 0.2 Ti 0.2 Zn 0.2 Cu 0.2 Fe 0.2) 3 O 4 has …
suitable as anode for battery applications.(Mg 0.2 Ti 0.2 Zn 0.2 Cu 0.2 Fe 0.2) 3 O 4 has …
Pair distribution function analysis driven by atomistic simulations: Application to microwave radiation synthesized TiO2 and ZrO2
S Zhang, J Gong, DZ Xiao, BR Jayan… - Computational Materials …, 2023 - Elsevier
A workflow is presented for performing pair distribution function (PDF) analysis of defected
materials using structures generated from atomistic simulations. A large collection of …
materials using structures generated from atomistic simulations. A large collection of …
In situ synchrotron pair distribution function analysis to monitor synthetic pathways under electromagnetic excitation
Electromagnetic (EM) fields, specifically microwave radiation (MWR), can significantly
influence the synthesis of ceramic oxide materials and promote rapid, low-temperature …
influence the synthesis of ceramic oxide materials and promote rapid, low-temperature …
Engineering lithium-ion battery cathodes for high-voltage applications using electromagnetic excitation
Microwave radiation (MWR), a type of electromagnetic excitation source, reduces the
synthesis temperature and processing time for chemical reactions compared to traditional …
synthesis temperature and processing time for chemical reactions compared to traditional …
Linking far-from-equilibrium defect structures in ceramics to electromagnetic driving forces
Electromagnetic (EM) field exposure during materials synthesis offers the opportunity to
engineer novel atomic structures and modify reaction kinetics beyond the capabilities of …
engineer novel atomic structures and modify reaction kinetics beyond the capabilities of …
Experimental Evidence for the Influence of Electromagnetic Fields on Atomic Structure
NJ Nakamura - 2020 - search.proquest.com
Electromagnetic (EM) fields can significantly alter ceramic synthesis, inducing rapid, low-
temperature crystallization and phase transitions not observed via conventional routes. Due …
temperature crystallization and phase transitions not observed via conventional routes. Due …
Atomistic Simulations and Machine Learning Approaches for Optimizing Electrocaloric Cooling and Identifying Oxide Defect Structures
J Gong - 2022 - search.proquest.com
With the development of machine learning (ML) algorithms and hardware, the application of
ML methods and data-driven approaches are gaining popularity in the field of materials …
ML methods and data-driven approaches are gaining popularity in the field of materials …
Interpreting total X-ray scattering data and lithium battery cycling curves using atomistic simulation and machine learning
S Zhang - 2022 - search.proquest.com
Pair distribution function (PDF) is a total scattering technique for determining the local
structure of nanoscaled materials. In this thesis, we combine atomistic simulations and …
structure of nanoscaled materials. In this thesis, we combine atomistic simulations and …
The Effect of Frequency on Electromagnetic Field–Material Interactions
MR Telmer - 2021 - search.proquest.com
This thesis aims to improve the understanding of electromagnetic (EM) field–material
interactions, with the end goal of introducing frequency as an experimental variable during …
interactions, with the end goal of introducing frequency as an experimental variable during …