Add to ORKGWe calculate the component of the photovoltage in bismuth ferrite that is generated by ferroelectric domain walls, using first-principles methods, in order to compare its magnitude to the experimentally measured photovoltage. We find that excitons at the ferroelectric domain walls form an electric dipole layer resulting in a domain-wall driven photovoltage. This is of the same order of magnitude as the experimentally measured one, but only if the carrier lifetimes and diffusion lengths are larger than previously assumed
DoctorThe ferroelectric photovoltaics has recently regained much interest due to the scientific impo...
We propose a device model that elucidates the role of domain walls in the photovoltaic effect in mul...
International audienceEnergy harvesting from sunlight is essential in order to save fossil fuels, wh...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
International audienceUsing an experimental setup designed to scan a submicron sized light spot and ...
International audienceUsing an experimental setup designed to scan a submicron sized light spot and ...
We propose a device model that elucidates the role of domain walls in the photovoltaic effect in mul...
Domain walls, which are intrinsically two dimensional nano-objects exhibiting nontrivial electronic ...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
We compute the bulk photovoltaic effect (BPVE) in BiFeO3 using first-principles shift current theory...
In conventional junction-based photovoltaic cells, the photovoltage is usually smaller than the semi...
In conventional junction-based photovoltaic cells, the photovoltage is usually smaller than the semi...
The effect of domain structure on the photovoltaic response of BiFeO3 vertical capacitors is investi...
First-principles calculations for pristine neutral ferroelectric domain walls in BiFeO3 reveal that ...
DoctorThe ferroelectric photovoltaics has recently regained much interest due to the scientific impo...
We propose a device model that elucidates the role of domain walls in the photovoltaic effect in mul...
International audienceEnergy harvesting from sunlight is essential in order to save fossil fuels, wh...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
International audienceUsing an experimental setup designed to scan a submicron sized light spot and ...
International audienceUsing an experimental setup designed to scan a submicron sized light spot and ...
We propose a device model that elucidates the role of domain walls in the photovoltaic effect in mul...
Domain walls, which are intrinsically two dimensional nano-objects exhibiting nontrivial electronic ...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
Using an experimental setup designed to scan a submicron sized light spot and collect the photogener...
We compute the bulk photovoltaic effect (BPVE) in BiFeO3 using first-principles shift current theory...
In conventional junction-based photovoltaic cells, the photovoltage is usually smaller than the semi...
In conventional junction-based photovoltaic cells, the photovoltage is usually smaller than the semi...
The effect of domain structure on the photovoltaic response of BiFeO3 vertical capacitors is investi...
First-principles calculations for pristine neutral ferroelectric domain walls in BiFeO3 reveal that ...
DoctorThe ferroelectric photovoltaics has recently regained much interest due to the scientific impo...
We propose a device model that elucidates the role of domain walls in the photovoltaic effect in mul...
International audienceEnergy harvesting from sunlight is essential in order to save fossil fuels, wh...