Add to ORKGIron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and energy-harvesting material owing to its interesting optical, electronic, and chemical properties along with elemental abundance. In this Review, low cost and scalable processing techniques to synthesize phase-pure pyrite thin films and nanocubes are described, and the application of this material in various energy-harvesting devices such as dye-sensitized solar cells, photodiodes, and heterojunction solar cells is discussed. A detailed analysis of the electron transport in single-crystal iron pyrite is presented to shed light on its bulk- and surface-conduction properties, which could be useful in designing better pyrite solar cells and could...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
Thesis (Ph.D.)--University of Washington, 2015Solar energy is our most abundant and clean natural en...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Iron pyrite (cubic FeS2) is an earth-abundant, non-toxic semiconductor with great potential as an ab...
Iron pyrite is among the promising solar materials owing to its remarkably high optical absorption,...
Iron pyrite is a very attractive next-generation photovoltaic(PV) material that is abundant in natur...
Iron pyrite is an earth-abundant, non-toxic, and inexpensive semiconductor that has the potential to...
Iron pyrite is an earth-abundant, non-toxic, and inexpensive semiconductor that has the potential to...
Iron disulfide (FeS2) or pyrite is a promising candidate material for photovoltaic application, beca...
Thin-film photovoltaics (PV) have the potential to supply our future energy needs, but the dominant ...
The use of pyrite FeS<sub>2</sub> as an earth-abundant, low-cost, nontoxic thin film photovoltaic hi...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
Thesis (Ph.D.)--University of Washington, 2015Solar energy is our most abundant and clean natural en...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Iron pyrite (cubic FeS2) is an earth-abundant, non-toxic semiconductor with great potential as an ab...
Iron pyrite is among the promising solar materials owing to its remarkably high optical absorption,...
Iron pyrite is a very attractive next-generation photovoltaic(PV) material that is abundant in natur...
Iron pyrite is an earth-abundant, non-toxic, and inexpensive semiconductor that has the potential to...
Iron pyrite is an earth-abundant, non-toxic, and inexpensive semiconductor that has the potential to...
Iron disulfide (FeS2) or pyrite is a promising candidate material for photovoltaic application, beca...
Thin-film photovoltaics (PV) have the potential to supply our future energy needs, but the dominant ...
The use of pyrite FeS<sub>2</sub> as an earth-abundant, low-cost, nontoxic thin film photovoltaic hi...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Although iron pyrite had been identified as a novel photo-voltaic material, it is yet to be harnesse...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
Thesis (Ph.D.)--University of Washington, 2015Solar energy is our most abundant and clean natural en...