Add to ORKGThe beneficial role of marcasite in iron-sulfide-based photo-electrochemical applications is reported for the first time. A spectacular improvement of the photoresponse observed experimentally for mixed pyrite/marcasite-FeS2 films can be ascribed to the presence of p/m phase junctions at the interface. Density functional theory calculations show that the band alignment at the phase boundary contributes to enhanced charge separation and transfer across the interface
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
[[abstract]]Pyrite is an attractive material as its good photovoltaic performance; however, the pres...
The beneficial role of marcasite in iron-sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron-sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in pyrite thin films for photoelectrochemical applications is repor...
This thesis deals with first-principles calculations for pyrite and marcasite compounds,with a parti...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
The photoelectrochemical behavior of n-FeS2 was investigated in aqueous and nonaqueous solvent syste...
Despite its exceptional optical absorptivity, suitable band gap, and earth abundance, the low open-c...
Despite the many advantages (e.g., suitable band gap, exceptional optical absorptivity, earth abunda...
Iron pyrite (cubic FeS2) is an earth-abundant, non-toxic semiconductor with great potential as an ab...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
[[abstract]]Pyrite is an attractive material as its good photovoltaic performance; however, the pres...
The beneficial role of marcasite in iron-sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron-sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in iron sulfide-based photo-electrochemical applications is reporte...
The beneficial role of marcasite in pyrite thin films for photoelectrochemical applications is repor...
This thesis deals with first-principles calculations for pyrite and marcasite compounds,with a parti...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
The photoelectrochemical behavior of n-FeS2 was investigated in aqueous and nonaqueous solvent syste...
Despite its exceptional optical absorptivity, suitable band gap, and earth abundance, the low open-c...
Despite the many advantages (e.g., suitable band gap, exceptional optical absorptivity, earth abunda...
Iron pyrite (cubic FeS2) is an earth-abundant, non-toxic semiconductor with great potential as an ab...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
Considering the natural abundance, the optoelectronic properties, and the electricity production cos...
[[abstract]]Pyrite is an attractive material as its good photovoltaic performance; however, the pres...