Emerging photovoltaic technologies based on dye-sensitized solar cells, organic compounds, perovskite materials, and quantum dots garner intense coverage in the science press. These types of solar cells sit in the spotlight because they promise to be less expensive and well suited to many more applications than conventional silicon solar cells, which currently claim about 90% of the solar-cell market. Read on to find out which of these emerging technologies are well on their way to market and what technical challenges are holding up the others.
Research activities are currently focused on the synthesis of n- and p-type metal oxide and chalcogenide semiconductor nanowires as well as nitrides for the fabrication of all-inorganic quantum dot sensitized nanowire solar cells, supercapacitors and for the photocatalytic generation of hydrogen.
Computational studies of quantum dot sensitized solar cells
Research activities are currently focused on the synthesis of n- and p-type metal oxide and chalcogenide semiconductor nanowires as well as nitrides for the fabrication of all-inorganic quantum dot sensitized nanowire solar cells, supercapacitors and the photocatalytic generation of hydrogen.
QUANTUM DOTS IN SOLAR CELLS | Solar Cell | Band Gap
These developing technologies, which include dye-sensitized solar cells, organic photovoltaics, perovskite photovoltaics, and inorganic quantum dot solar cells, enjoy rock-star status. The reason is, compared with traditional silicon solar cells, the emerging ones promise to be less expensive, thinner, more flexible, and amenable to a wide range of lighting conditions, all of which make them suitable for a host of applications beyond rooftop and solar-farm panels—silicon’s bailiwick.
NEED FOR QUANTUM DOTS IN SOLAR CELLS ..
(2014) Parametric optimization in quantum dot-sensitized solar cells for efficiency enhancement / Jun Hieng Kiat. PhD thesis, University of Malaya.
The future of low-cost solar cells
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