Add to ORKGThe function of nanoporous electrodes involves chemical reactions coupled to transport of reactants and products into and out of the solid matrix. To understand how this coupling can depend on electrode structure and chemistry, a general multiscale, molecular-level computational framework is introduced and applied to a model system containing a nanoporous photoanode, the dye-sensitized solar cell. The pore structure and electrolyte composition are systematically varied to probe this coupling, revealing that in most cases the photocurrent density depends on dye coverage within the anode matrix, the specific architecture of an individual pore, and electrolyte gradients in between the anode and cathode. The large electrolyte gradients that dev...
Nanoporous materials are used in the variety of fields, ranging from medicine and biosensors to clea...
The porous structure of the electrodes in redox flow batteries (RFBs) plays a critical role in their...
This Thesis presents a thorough study of the electron transfer (ET) processes, both inter-molecular ...
The function of nanoporous electrodes involves chemical reactions coupled to transport of reactants ...
This thesis presents a mathematical model of the nanoporous anode within a dyesensitised solar cell ...
Photovoltage and photocurrents below theoretical limits in dye-sensitized photoelectrochemical solar...
Nanoenabled photovoltaics consist of a family of relatedapproaches to make solar cells that use nano...
Ion transport through nanoporous materials is of fundamental importance for the design and developme...
The paper deals with basic processes involved in light capture and electron transport through a phot...
A quasi solid state dye sensitized solar cell is presented, where an electrolyte film replaces the c...
This project has received funding from the European Union’s Horizon 2020 research and innovation pro...
We present a mathematical model of the steady-state current produced by the anodic half cell of a dy...
A closed-form analytical model is developed to describe the steady-state current density−potential (...
Electrical double layer (EDL) in a nanoporous electrode is very different from a planar electrochemi...
In the context of solar energy exploitation, dye-sensitized solar cells and dye-sensitized photoelec...
Nanoporous materials are used in the variety of fields, ranging from medicine and biosensors to clea...
The porous structure of the electrodes in redox flow batteries (RFBs) plays a critical role in their...
This Thesis presents a thorough study of the electron transfer (ET) processes, both inter-molecular ...
The function of nanoporous electrodes involves chemical reactions coupled to transport of reactants ...
This thesis presents a mathematical model of the nanoporous anode within a dyesensitised solar cell ...
Photovoltage and photocurrents below theoretical limits in dye-sensitized photoelectrochemical solar...
Nanoenabled photovoltaics consist of a family of relatedapproaches to make solar cells that use nano...
Ion transport through nanoporous materials is of fundamental importance for the design and developme...
The paper deals with basic processes involved in light capture and electron transport through a phot...
A quasi solid state dye sensitized solar cell is presented, where an electrolyte film replaces the c...
This project has received funding from the European Union’s Horizon 2020 research and innovation pro...
We present a mathematical model of the steady-state current produced by the anodic half cell of a dy...
A closed-form analytical model is developed to describe the steady-state current density−potential (...
Electrical double layer (EDL) in a nanoporous electrode is very different from a planar electrochemi...
In the context of solar energy exploitation, dye-sensitized solar cells and dye-sensitized photoelec...
Nanoporous materials are used in the variety of fields, ranging from medicine and biosensors to clea...
The porous structure of the electrodes in redox flow batteries (RFBs) plays a critical role in their...
This Thesis presents a thorough study of the electron transfer (ET) processes, both inter-molecular ...