Add to ORKGIron pyrite nanocrystals with high purity have been synthesized through a surfactant-assisted hydrothermal reaction under optimum pH value. These pyrite nanocrystals represent a new group of well-defined nanoscale structures for high-performance photovoltaic solar cells based on non-toxic and earth abundant materials
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
This work reports on the investigation of temperature, reaction time, pH, concentration of graphene ...
Iron pyrite is a very attractive next-generation photovoltaic(PV) material that is abundant in natur...
Iron pyrite nanocrystals with high purity have been synthesized through a surfactant-assisted hydrot...
Nanoscale pyrite FeS<sub>2</sub> is considered to be one of few potentially transformative materials...
Iron disulfide (FeS2) or pyrite is a promising candidate material for photovoltaic application, beca...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Pyrite, FeS2, nanoparticles were obtained through a one-pot solvothermal synthesis, without surfacta...
Colloidal iron pyrite nanocrystals (or FeS<sub>2</sub> NC inks) are desirable as active materials in...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Nanocubic pyrite (FeS2) crystals with exposed (100) crystal faces and sizes of 100-200 nm were succe...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Nanocubic pyrite (FeS2) crystals with exposed (100) crystal faces and sizes of 100−200 nm were...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
This work reports on the investigation of temperature, reaction time, pH, concentration of graphene ...
Iron pyrite is a very attractive next-generation photovoltaic(PV) material that is abundant in natur...
Iron pyrite nanocrystals with high purity have been synthesized through a surfactant-assisted hydrot...
Nanoscale pyrite FeS<sub>2</sub> is considered to be one of few potentially transformative materials...
Iron disulfide (FeS2) or pyrite is a promising candidate material for photovoltaic application, beca...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Pyrite, FeS2, nanoparticles were obtained through a one-pot solvothermal synthesis, without surfacta...
Colloidal iron pyrite nanocrystals (or FeS<sub>2</sub> NC inks) are desirable as active materials in...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non‐toxic photoelectrochemical and ...
Nanocubic pyrite (FeS2) crystals with exposed (100) crystal faces and sizes of 100-200 nm were succe...
Nanocrystals from non-toxic, earth abundant materials have recently received great interest for thei...
Nanocubic pyrite (FeS2) crystals with exposed (100) crystal faces and sizes of 100−200 nm were...
Iron pyrite (FeS2) holds an enormous potential as a low cost and non-toxic photoelectrochemical and ...
This work reports on the investigation of temperature, reaction time, pH, concentration of graphene ...
Iron pyrite is a very attractive next-generation photovoltaic(PV) material that is abundant in natur...