Synthesis, characterization and optoelectronic properties of iron pyrite nanohusks

Poly-sized iron pyrite nanohusks with an average length of ~6nm were synthesized in ethanolamine which acts as a solvent and a surfactant at 210°C in a Schlenk flask. An X-ray diffraction pattern and Raman spectra show a cubic iron pyrite structure with prominent Raman peaks at the 339.5 and 378 pos...

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Bibliographic Details
Published in:Materials letters 2014-07, Vol.126, p.181-184
Main Authors: Alam Khan, M., Manasreh, M.O., Kang, Yong-Mook
Format: Article
Language:English
Subjects:
Band gap
Iron
Iron pyrite
Nanohusks
Nanostructure
Optical properties
Optoelectronics
Photovoltaics
Pyrite
Raman spectra
Solvents
Spectra
Weight reduction
X-ray photoelectron spectroscopy
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Summary:Poly-sized iron pyrite nanohusks with an average length of ~6nm were synthesized in ethanolamine which acts as a solvent and a surfactant at 210°C in a Schlenk flask. An X-ray diffraction pattern and Raman spectra show a cubic iron pyrite structure with prominent Raman peaks at the 339.5 and 378 positions, typical of cubic iron pyrite. UV–vis spectra show an increased band gap of 1.34eV due to quantum size effects. The synthesized semiconducting iron pyrite nanohusks owing to lighter weight and strong visible light coverage have advantages over large pyrite nanocrystals, since the larger particles usually sink down to the bottom on spin casting due to unavoidable gravity effects. When such nanohusks were applied in a bulk-heterojunction type solar cell with an n-type fullerene (PCBM), an efficiency of 0.23% was observed with a JSC of 1.4mA/cm−2, a VOC of 0.17V and a fill factor of 32. The morphology and optoelectronic properties of the synthesized nanohusks were elucidated by TEM, XRD, micro-Raman spectra, UV–vis, SEM, XPS, TEM-EDX and J–V techniques. •Cubic phased iron pyrite nanohusks with band gap of 1.34eV were synthesized.•The synthesized nanohusks show a wide range of excellent visible light responses.•Owing to their smaller size and lighter weight, they are promising for solar inks.•A photovoltaic efficiency of 0.23% was observed with n-type fullerene.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2014.04.060