Specific features of the electronic structure of a novel ternary Tl sub(3)PbI sub(5) optoelectronic material

A novel Tl sub(3)PbI sub(5) crystal has been studied both experimentally and theoretically. Complex measurements of the X-ray photoelectron core-level and valence-band spectra for the pristine and Ar super(+)-ion irradiated surfaces of a Tl sub(3)PbI sub(5) single crystal grown by the Bridgman-Stock...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2014-06, Vol.16 (25), p.12838-12847
Hauptverfasser:	Brik, M G, Kityk, I V, Denysyuk, N M, Khyzhun, O Y, Levkovets, SI, Parasyuk, O V, Fedorchuk, A O, Myronchuk, G L
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Sprache:	eng
Schlagworte:	Charge carriers Lead (metal) Mathematical analysis Optoelectronics Single crystals Surface chemistry Valence band X-rays
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container_title	Physical chemistry chemical physics : PCCP
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creator	Brik, M G Kityk, I V Denysyuk, N M Khyzhun, O Y Levkovets, SI Parasyuk, O V Fedorchuk, A O Myronchuk, G L
description	A novel Tl sub(3)PbI sub(5) crystal has been studied both experimentally and theoretically. Complex measurements of the X-ray photoelectron core-level and valence-band spectra for the pristine and Ar super(+)-ion irradiated surfaces of a Tl sub(3)PbI sub(5) single crystal grown by the Bridgman-Stockbarger method were performed in order to clarify their principal properties (charge carriers mobility, effective inter-band distances, effective absorption etc.) relevant for optoelectronic applications. The principal role of two heavy cations - Tl and Pb - is explored. The X-ray photoelectron spectroscopy results reveal a high chemical stability of the Tl sub(3)PbI sub(5) single crystal surface which makes it very promising for technological applications. Theoretical band-structure calculations for the Tl sub(3)PbI sub(5) compound reveal that the I 5p states dominate in the top of the valence band and play a crucial role in the formation of the optical features and charge carrier mobility. The bottom of the Tl sub(3)PbI sub(5) valence band is formed mainly by the admixture of Tl 6s and Pb 6s states, while the unoccupied Pb 6p and Tl 6p states dominate at the bottom of the conduction band. The band energy dispersion related to effective masses and the charge carrier mobility is studied in detail. Crucially, the theoretical calculations reveal an indirect band gap for Tl sub(3)PbI sub(5), which indicates a strong influence of the electron-phonon interaction on the observed optoelectronic features. The temperature measurements of the fundamental absorption have shown that the band energy gap of Tl sub(3)PbI sub(5) increases from 2.29 to 2.39 eV when the temperature changes from 300 to 100 K.
doi_str_mv	10.1039/c4cp00591k
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Complex measurements of the X-ray photoelectron core-level and valence-band spectra for the pristine and Ar super(+)-ion irradiated surfaces of a Tl sub(3)PbI sub(5) single crystal grown by the Bridgman-Stockbarger method were performed in order to clarify their principal properties (charge carriers mobility, effective inter-band distances, effective absorption etc.) relevant for optoelectronic applications. The principal role of two heavy cations - Tl and Pb - is explored. The X-ray photoelectron spectroscopy results reveal a high chemical stability of the Tl sub(3)PbI sub(5) single crystal surface which makes it very promising for technological applications. Theoretical band-structure calculations for the Tl sub(3)PbI sub(5) compound reveal that the I 5p states dominate in the top of the valence band and play a crucial role in the formation of the optical features and charge carrier mobility. The bottom of the Tl sub(3)PbI sub(5) valence band is formed mainly by the admixture of Tl 6s and Pb 6s states, while the unoccupied Pb 6p and Tl 6p states dominate at the bottom of the conduction band. The band energy dispersion related to effective masses and the charge carrier mobility is studied in detail. Crucially, the theoretical calculations reveal an indirect band gap for Tl sub(3)PbI sub(5), which indicates a strong influence of the electron-phonon interaction on the observed optoelectronic features. 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Complex measurements of the X-ray photoelectron core-level and valence-band spectra for the pristine and Ar super(+)-ion irradiated surfaces of a Tl sub(3)PbI sub(5) single crystal grown by the Bridgman-Stockbarger method were performed in order to clarify their principal properties (charge carriers mobility, effective inter-band distances, effective absorption etc.) relevant for optoelectronic applications. The principal role of two heavy cations - Tl and Pb - is explored. The X-ray photoelectron spectroscopy results reveal a high chemical stability of the Tl sub(3)PbI sub(5) single crystal surface which makes it very promising for technological applications. Theoretical band-structure calculations for the Tl sub(3)PbI sub(5) compound reveal that the I 5p states dominate in the top of the valence band and play a crucial role in the formation of the optical features and charge carrier mobility. The bottom of the Tl sub(3)PbI sub(5) valence band is formed mainly by the admixture of Tl 6s and Pb 6s states, while the unoccupied Pb 6p and Tl 6p states dominate at the bottom of the conduction band. The band energy dispersion related to effective masses and the charge carrier mobility is studied in detail. Crucially, the theoretical calculations reveal an indirect band gap for Tl sub(3)PbI sub(5), which indicates a strong influence of the electron-phonon interaction on the observed optoelectronic features. The temperature measurements of the fundamental absorption have shown that the band energy gap of Tl sub(3)PbI sub(5) increases from 2.29 to 2.39 eV when the temperature changes from 300 to 100 K.</abstract><doi>10.1039/c4cp00591k</doi></addata></record>
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source	Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects	Charge carriers Lead (metal) Mathematical analysis Optoelectronics Single crystals Surface chemistry Valence band X-rays
title	Specific features of the electronic structure of a novel ternary Tl sub(3)PbI sub(5) optoelectronic material
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