Embedding nanostructures in organic solar cells (OSCs) is a well-known method to improve the absorption efficiency of the device by introducing the plasma resonance and scattering effects without increasing the active layer thickness. The introduction of nanostructures imposes greater demands on the optical analysis method for OSCs. In this paper, the generalized rigorous coupled-wave analysis (GRCWA) is presented to analyze and optimize the performance of coherent-incoherent hybrid organic solar cells (OSCs) with nanostructures. Considering the multiple reflections of light scattered within the glass substrate by the device, the correction vector g is derived, then the modified expressions for the field and absorption distribution in OSCs ...
Organic Solar Cells can be made to be flexible, semi-transparent, and low-cost making them ideal for...
Further efficiency enhancements in organic solar cells require a deeper understanding of the charge ...
The book chapter provides a systematic study on plasmonic effects in organic solar cells (OSCs). We ...
Organic solar cells (OSCs) have attracted intense attention in recent years due to their advantages ...
A variety of light management structures have been introduced in solar cells to improve light harves...
To further improve the light management and optical performance of solar cells, research into nano-t...
One key problem in optimizing organic solar cells is to maximize the absorption of incident light an...
DoctorThis thesis explores ways to design of nanostructured optical layers for efficient light trapp...
We discuss the numerical optimization of organic and hybrid multijunction solar cell devices, using ...
In this paper, we examine the impact of three-dimensional grating layers embedded at selected locati...
The surface of semiconductor solar cells, such as a-Si or CIGS (CuInGaSe) solar cells is not flat bu...
© 2016 by the authors. Due to the rising power demand and substantial interest in acquiring green en...
We present the design of an organic solar cell (OSC), integrated with nanohole patterned aluminum el...
Organic and hybrid solar cells are complex, nanostructured devices, for which an in-depth understand...
Efficient light trapping is of great importance for thin-film silicon solar cells. Randomly textured...
Organic Solar Cells can be made to be flexible, semi-transparent, and low-cost making them ideal for...
Further efficiency enhancements in organic solar cells require a deeper understanding of the charge ...
The book chapter provides a systematic study on plasmonic effects in organic solar cells (OSCs). We ...
Organic solar cells (OSCs) have attracted intense attention in recent years due to their advantages ...
A variety of light management structures have been introduced in solar cells to improve light harves...
To further improve the light management and optical performance of solar cells, research into nano-t...
One key problem in optimizing organic solar cells is to maximize the absorption of incident light an...
DoctorThis thesis explores ways to design of nanostructured optical layers for efficient light trapp...
We discuss the numerical optimization of organic and hybrid multijunction solar cell devices, using ...
In this paper, we examine the impact of three-dimensional grating layers embedded at selected locati...
The surface of semiconductor solar cells, such as a-Si or CIGS (CuInGaSe) solar cells is not flat bu...
© 2016 by the authors. Due to the rising power demand and substantial interest in acquiring green en...
We present the design of an organic solar cell (OSC), integrated with nanohole patterned aluminum el...
Organic and hybrid solar cells are complex, nanostructured devices, for which an in-depth understand...
Efficient light trapping is of great importance for thin-film silicon solar cells. Randomly textured...
Organic Solar Cells can be made to be flexible, semi-transparent, and low-cost making them ideal for...
Further efficiency enhancements in organic solar cells require a deeper understanding of the charge ...
The book chapter provides a systematic study on plasmonic effects in organic solar cells (OSCs). We ...