Add to ORKGA quantitative model for charge carrier transport, trapping and recombination in nanocrystal-based solar cell
Impact of charge transport on current–voltage characteristics and power-conversion efficiency of org...
We review the concepts and methods of modeling of the dye-sensitized solar cell, starting from funda...
The significant performance increase in nanocrystal (NC)-based solar cells over the last decade is v...
Improving devices incorporating solution-processed nanocrystal-based semiconductors requires a bette...
A theoretical model is proposed to study the effects of carrier transport, escape, and capture proce...
Nanocrystal-based solar cells are promising candidates for next generation photovoltaic applications...
An illumination-dependent analysis of silicon nanocrystal p-i-n solar cells is presented within the ...
ABSTRACT: Charge transport within the oxide phase of a Dye-Sensitized Nanocrystalline Solar Cell is ...
The mathematical description of charge transport and recombination in dye-sensitized solar cells req...
A theoretical model based on the numerical integration of the continuity equation for electrons with...
The main electronic feature of many nanocrystalline semiconductors and I organic materials is the pr...
Solar cells rely on photogeneration of charge carriers in p-n junctions and their transport and subs...
Electron transfer between nanostructured semiconductor oxides and redox active electrolytes is a fun...
Analytical modeling of p-i-n solar cells constitutes a practical tool to extract electronic material...
The processes of charge separation, transport, and recombination in dye-sensitized nanocrystalline T...
Impact of charge transport on current–voltage characteristics and power-conversion efficiency of org...
We review the concepts and methods of modeling of the dye-sensitized solar cell, starting from funda...
The significant performance increase in nanocrystal (NC)-based solar cells over the last decade is v...
Improving devices incorporating solution-processed nanocrystal-based semiconductors requires a bette...
A theoretical model is proposed to study the effects of carrier transport, escape, and capture proce...
Nanocrystal-based solar cells are promising candidates for next generation photovoltaic applications...
An illumination-dependent analysis of silicon nanocrystal p-i-n solar cells is presented within the ...
ABSTRACT: Charge transport within the oxide phase of a Dye-Sensitized Nanocrystalline Solar Cell is ...
The mathematical description of charge transport and recombination in dye-sensitized solar cells req...
A theoretical model based on the numerical integration of the continuity equation for electrons with...
The main electronic feature of many nanocrystalline semiconductors and I organic materials is the pr...
Solar cells rely on photogeneration of charge carriers in p-n junctions and their transport and subs...
Electron transfer between nanostructured semiconductor oxides and redox active electrolytes is a fun...
Analytical modeling of p-i-n solar cells constitutes a practical tool to extract electronic material...
The processes of charge separation, transport, and recombination in dye-sensitized nanocrystalline T...
Impact of charge transport on current–voltage characteristics and power-conversion efficiency of org...
We review the concepts and methods of modeling of the dye-sensitized solar cell, starting from funda...
The significant performance increase in nanocrystal (NC)-based solar cells over the last decade is v...