Add to ORKGIn the search for new functional materials, quantum mechanics is an exciting starting point. The fundamental laws that govern the behaviour of electrons have the possibility, at the other end of the scale, to predict the performance of a material for a targeted application. In some cases, this is achievable using density functional theory (DFT). In this Review, we highlight DFT studies predicting energy-related materials that were subsequently confirmed experimentally. The attributes and limitations of DFT for the computational design of materials for lithium-ion batteries, hydrogen production and storage materials, superconductors, photovoltaics and thermoelectric materials are discussed. In the future, we expect that the accuracy of DFT-b...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...
As scientists are pushing the limit of technology, experimental trial and error explorations are bec...
In the search for new functional materials, quantum mechanics is an exciting starting point. The fun...
This report documents research carried out by the author throughout his 3-years Truman fellowship. T...
Portable electronic devices, electric vehicles and stationary energy storage applications, which enc...
© 2020 Johnson Matthey Portable electronic devices, electric vehicles and stationary energy storage ...
The discovery of novel materials with desired properties is essential to the advancements of energy-...
Materials design increasingly relies on first-principles calculations for screening important candid...
Although the microscopic view of solids is still evolving, for a large class of materials one can co...
Density Functional Theory (DFT) is one of the most used ab initio theoretical frameworks in material...
Computational modeling has become a very effective approach in predicting properties of materials, a...
Computational-driven materials discovery requires efficient and accurate methods. Density function...
Simulations can be used to accelerate the characterization and discovery of materials. Here we Revie...
In this paper, utilization of density functional theory (DFT) to obtain mechanical, electrical and t...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...
As scientists are pushing the limit of technology, experimental trial and error explorations are bec...
In the search for new functional materials, quantum mechanics is an exciting starting point. The fun...
This report documents research carried out by the author throughout his 3-years Truman fellowship. T...
Portable electronic devices, electric vehicles and stationary energy storage applications, which enc...
© 2020 Johnson Matthey Portable electronic devices, electric vehicles and stationary energy storage ...
The discovery of novel materials with desired properties is essential to the advancements of energy-...
Materials design increasingly relies on first-principles calculations for screening important candid...
Although the microscopic view of solids is still evolving, for a large class of materials one can co...
Density Functional Theory (DFT) is one of the most used ab initio theoretical frameworks in material...
Computational modeling has become a very effective approach in predicting properties of materials, a...
Computational-driven materials discovery requires efficient and accurate methods. Density function...
Simulations can be used to accelerate the characterization and discovery of materials. Here we Revie...
In this paper, utilization of density functional theory (DFT) to obtain mechanical, electrical and t...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...
As scientists are pushing the limit of technology, experimental trial and error explorations are bec...