Exploring the vast compositional space offered by multicomponent systems or high entropy materials using the traditional route of materials discovery, one experiment at a time, is prohibitive in terms of cost and required time. Consequently, the development of high-throughput experimental methods, aided by machine learning and theoretical predictions will facilitate the search for multicomponent materials in their compositional variety. In this study, high entropy oxides are fabricated and characterized using automated high-throughput techniques. For intuitive visualization, a graphical phase–property diagram correlating the crystal structure, the chemical composition, and the band gap are introduced. Interpretable machine learning models a...
Multiple-principal element materials, including alloys (MPEAs), oxides and other compounds combine s...
The large compositional space of high-entropy alloys (HEA) poses considerable challenges in designin...
High-entropy materials (HEMs) with promising energy storage and conversion properties have recently ...
The big data revolution is only just beginning in the materials science and engineering field, offer...
We present a low-cost, virtual high-throughput materials design workflow and use it to identify eart...
Utilizing entropy as the driving force for stabilizing oxide materials offers a path for the discove...
AbstractAlthough high-entropy materials are attracting considerable interest due to a combination of...
<p>Recently, in materials innovations, computational methods are used more frequently than in past d...
Improvements in computational resources over the last decade are enabling a new era of computational...
The discovery of new multicomponent inorganic compounds can provide direct solutions to many scienti...
With their ability to rapidly elucidate composition-structure-property relationships, high-throughpu...
The high entropy alloys have become the most intensely researched materials in recent times. They of...
High entropy oxides are entropy-stabilised oxides that adopt specific disordered structures due to e...
Finding new compounds and their crystal structures is an essential step to new materials discoveries...
High-entropy materials (HEMs) with promising energy storage and conversion properties have recently ...
Multiple-principal element materials, including alloys (MPEAs), oxides and other compounds combine s...
The large compositional space of high-entropy alloys (HEA) poses considerable challenges in designin...
High-entropy materials (HEMs) with promising energy storage and conversion properties have recently ...
The big data revolution is only just beginning in the materials science and engineering field, offer...
We present a low-cost, virtual high-throughput materials design workflow and use it to identify eart...
Utilizing entropy as the driving force for stabilizing oxide materials offers a path for the discove...
AbstractAlthough high-entropy materials are attracting considerable interest due to a combination of...
<p>Recently, in materials innovations, computational methods are used more frequently than in past d...
Improvements in computational resources over the last decade are enabling a new era of computational...
The discovery of new multicomponent inorganic compounds can provide direct solutions to many scienti...
With their ability to rapidly elucidate composition-structure-property relationships, high-throughpu...
The high entropy alloys have become the most intensely researched materials in recent times. They of...
High entropy oxides are entropy-stabilised oxides that adopt specific disordered structures due to e...
Finding new compounds and their crystal structures is an essential step to new materials discoveries...
High-entropy materials (HEMs) with promising energy storage and conversion properties have recently ...
Multiple-principal element materials, including alloys (MPEAs), oxides and other compounds combine s...
The large compositional space of high-entropy alloys (HEA) poses considerable challenges in designin...
High-entropy materials (HEMs) with promising energy storage and conversion properties have recently ...