Optical characterization of Cu2ZnSnSe4 grown by thermal co-evaporation

Park, Doyoung; Nam, Dahyun; Jung, Seung Won; An, SeJin; Gwak, Jihye; Yoon, Kwon Ha; Yun, Jae Ho; Cheong, Hyeonsik

doi:10.1016/j.tsf.2011.01.142

Cited by 67 publications

(30 citation statements)

References 18 publications

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“…The results of Raman spectroscopy in this study are in strong agreement with these findings [16,17]. In this study, the Raman results revealed a very strong peak at 196 cm −1 , corresponding to a CZTSe phase with weak peaks located at 307 and 338 cm −1 , which are representative of CZTS [18,19]. This can be attributed to the aggregation (from vapor) of large amounts of selenium in the film during the selenization process.…”

Section: Effect Of Stacked Structure On Crystalline Structuresupporting

confidence: 88%

Effect of the stacked structure on performance in CZTSSe thin film solar cells

Wang

Lin

2015

Applied Surface Science

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Section: Effect Of Stacked Structure On Crystalline Structuresupporting

confidence: 88%

Effect of the stacked structure on performance in CZTSSe thin film solar cells

Wang

Lin

2015

Applied Surface Science

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“…[9][10][11][12] The absorption coefficient is a > 10 4 cm À1 at photon energies >1.05 eV, and Urbach energy is E Ur % 170 meV. The calculated curve fits the measured spectrum well in the range <1.4 eV.…”

mentioning

confidence: 54%

“…So far, experimental results are reported only for the first absorption edge around 1 eV. [9][10][11][12] In this manuscript, we report on our findings on the absorption behavior of CZTSe absorber films above this photon energy and present experimental results which confirm the existence of a lone conduction band.…”

mentioning

confidence: 61%

Lone conduction band in Cu2ZnSnSe4

Gütay

Redinger

Djemour

et al. 2012

Applied Physics Letters

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Band gap control via tuning of inversion degree in CdIn2S4 spinel Appl. Phys. Lett. 100, 102112 (2012) Direct imaging and optical activities of stacking faults in 4H-SiC homoepitaxial films J. Appl. Phys. 111, 053513 (2012) Steady state and transient electron transport properties of bulk dilute GaNxAs1−x J. Appl. Phys. 111, 053703 (2012) Efficient algorithm of the transcorrelated method for periodic systems J. Chem. Phys. 136, 094108 (2012) Valence band structure in boron-zinc oxide films characterized by secondary electron emission

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“…In particular, ZnSe [67] and Zn-caused disorders [66] lead to incorrect bandgap determination when it is determined from absorbance measurements. PL measurements now confirm that the bandgap of Cu 2 ZnSnSe 4 is indeed around 1.0 eV at room temperature [68], whereas before that publication the measured band gap was around 1.5 eV. Suitable methods for measurement of CZTS bandgap are PL, TR-PL and EQE measurements.…”

Section: Bandgap Measurementmentioning

confidence: 73%

Kësterite thin films for photovoltaics : a review

2012

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In the years to come, electricity production is bound to increase, and Cu2ZnSn(S, Se)4 (CZTS) compounds, due to their suitability to thin-film solar cells, could be a means to fulfill the demand. After explaining the reasons of the sudden interest of the CIGS scientific community for CZTS solar cells, this paper reviews recent papers published on the subject of kësterites-based solar cells. After a description of crystallographic and optoelectronic properties, including CZTS crystalline structure, defect formation and metal composition, this review paper focuses on CZTS synthesis processes and device properties. Synthesis strategies, including one-or two-step processes, deposition temperature, binary formation control via atmosphere control and their effect on device properties are discussed.

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Optical characterization of Cu2ZnSnSe4 grown by thermal co-evaporation

Cited by 67 publications

References 18 publications

Effect of the stacked structure on performance in CZTSSe thin film solar cells

Effect of the stacked structure on performance in CZTSSe thin film solar cells

Lone conduction band in Cu2ZnSnSe4

Kësterite thin films for photovoltaics : a review

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