Add to ORKGSilicon microwires are very promising candidates for next-generation photovoltaics. Si microwires achieve strong broadband light absorption, acting as an antireflection coating layer. In addition to superior optical properties, Si microwires can effectively separate and collect photocarriers at the radial junction owing to a short diffusion length. This factor can relax the requirement for high-quality materials, enabling a reduction in the cost of producing solar cells. In this talk, I will review recent progress in vertically aligned Si microwire photovoltaics with reference to (1) optimized microwire structures to enhance light absorption, (2) uniform radial junctions for effective carrier separation, (3) minimization of surface recombin...
Silicon (Si) is an attractive semiconductor material for a wide range of applications. Particular ad...
By allowing for the fabrication of flexible crystalline-Si (c-Si) solar cells that employ ~1/100th) ...
We demonstrate a substrate-free novel route for fabrication of solar grade silicon microwires for ph...
Silicon microwires are very promising candidates for next-generation solar cells. Si microwires achi...
Much attention has been paid to thin crystalline silicon (c-Si) photovoltaic devices due to their ex...
Much attention has been paid to thin crystalline silicon (c-Si) photovoltaic devices due to their ex...
Flexible photovoltaics (FPVs) are one of the most promising research fields in the solar energy indu...
Structural optimization of microwire arrays is important for the successful demonstration of the pra...
Structural optimization of microwire arrays is important for the successful demonstration of the pra...
Light-absorption enhancement is one of the key research areas related to the development of high-eff...
Vertically aligned silicon microwires (MWs) have been extensively investigated as a means for develo...
School of Energy and Chemical Engineering (Energy Engineering)Crystalline Si (c-Si) based solar cell...
Silicon microwire arrays have attracted considerable attention recently due to the opportunity they ...
Highly structured silicon microwire (Si MW) arrays have been synthesized and characterized as absorb...
© 2016 Elsevier Inc. Photovoltaic (PV) devices based on arrays of silicon wires with diameters in th...
Silicon (Si) is an attractive semiconductor material for a wide range of applications. Particular ad...
By allowing for the fabrication of flexible crystalline-Si (c-Si) solar cells that employ ~1/100th) ...
We demonstrate a substrate-free novel route for fabrication of solar grade silicon microwires for ph...
Silicon microwires are very promising candidates for next-generation solar cells. Si microwires achi...
Much attention has been paid to thin crystalline silicon (c-Si) photovoltaic devices due to their ex...
Much attention has been paid to thin crystalline silicon (c-Si) photovoltaic devices due to their ex...
Flexible photovoltaics (FPVs) are one of the most promising research fields in the solar energy indu...
Structural optimization of microwire arrays is important for the successful demonstration of the pra...
Structural optimization of microwire arrays is important for the successful demonstration of the pra...
Light-absorption enhancement is one of the key research areas related to the development of high-eff...
Vertically aligned silicon microwires (MWs) have been extensively investigated as a means for develo...
School of Energy and Chemical Engineering (Energy Engineering)Crystalline Si (c-Si) based solar cell...
Silicon microwire arrays have attracted considerable attention recently due to the opportunity they ...
Highly structured silicon microwire (Si MW) arrays have been synthesized and characterized as absorb...
© 2016 Elsevier Inc. Photovoltaic (PV) devices based on arrays of silicon wires with diameters in th...
Silicon (Si) is an attractive semiconductor material for a wide range of applications. Particular ad...
By allowing for the fabrication of flexible crystalline-Si (c-Si) solar cells that employ ~1/100th) ...
We demonstrate a substrate-free novel route for fabrication of solar grade silicon microwires for ph...