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Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5 : A promising laser host material. / Vu, Tuan V.; Lavrentyev, A. A.; Gabrelian, B. V. et al.

In: RSC Advances, Vol. 10, No. 19, 17.03.2020, p. 11156-11164.

Research output: Contribution to journalArticlepeer-review

Harvard

Vu, TV, Lavrentyev, AA, Gabrelian, BV, Vo, DD, Tong, HD, Denysyuk, NM, Isaenko, LI, Tarasova, AY & Khyzhun, OY 2020, 'Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5: A promising laser host material', RSC Advances, vol. 10, no. 19, pp. 11156-11164. https://doi.org/10.1039/d0ra00718h

APA

Vu, T. V., Lavrentyev, A. A., Gabrelian, B. V., Vo, D. D., Tong, H. D., Denysyuk, N. M., Isaenko, L. I., Tarasova, A. Y., & Khyzhun, O. Y. (2020). Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5: A promising laser host material. RSC Advances, 10(19), 11156-11164. https://doi.org/10.1039/d0ra00718h

Vancouver

Vu TV, Lavrentyev AA, Gabrelian BV, Vo DD, Tong HD, Denysyuk NM et al. Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5: A promising laser host material. RSC Advances. 2020 Mar 17;10(19):11156-11164. doi: 10.1039/d0ra00718h

Author

Vu, Tuan V. ; Lavrentyev, A. A. ; Gabrelian, B. V. et al. / Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5 : A promising laser host material. In: RSC Advances. 2020 ; Vol. 10, No. 19. pp. 11156-11164.

BibTeX

@article{cabcef40cf864b14b03c78e489df5a02,
title = "Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5: A promising laser host material",
abstract = "The data on the electronic structure and optical properties of bromide K0.5Rb0.5Pb2Br5 achieved by first-principle calculations and verified by X-ray spectroscopy measurements are reported. The kinetic energy, the Coulomb potential induced by the exchange hole, spin-orbital effects, and Coulomb repulsion were taken into account by applying the Tran and Blaha modified Becke-Johnson function (TB-mBJ), Hubbard U parameter, and spin-orbital coupling effect (SOC) in the TB-mBJ + U + SOC technique. The band gap was for the first time defined to be 3.23 eV. The partial density of state (PDOS) curves of K0.5Rb0.5Pb2Br5 agree well with XES K Ll and Br Kβ2, and XPS spectra. The valence band (VB) is characterized by the Pb-5d3/2 and Pb-5d5/2 sub-states locating in the vicinities of-20 eV and-18 eV, respectively. The VB middle part is mainly formed by K-3p, Rb-4p and Br-4s states, in which the separation of Rb-4p3/2 and Rb-4p1/2 was also observed. The strong hybridization of Br-p and Pb-s/p states near-6.5 eV reveals a major covalent part in the Br-Pb bonding. With a large band gap of 3.23 eV, and the remarkably high possibility of inter-band transition in energy ranges of 4-7 eV, and 10-12 eV, the bromide K0.5Rb0.5Pb2Br5 is expected to be a very promising active host material for core valence luminescence and mid-infrared rare-earth doped laser materials. The anisotropy of optical properties in K0.5Rb0.5Pb2Br5 is not significant, and it occurs at the extrema in the optical spectra. The absorption coefficient α(ω) is in the order of magnitude of 106 cm-1 for an energy range of 5-25 eV.",
keywords = "DENSITY-FUNCTIONAL THEORY, CORE-VALENCE LUMINESCENCE, LOW-PHONON-ENERGY, PHASE-TRANSITION, DFT CALCULATIONS, BAND-STRUCTURE, KPB2BR5, RBPB2BR5, SPECTROSCOPY, SUBSTITUTION",
author = "Vu, {Tuan V.} and Lavrentyev, {A. A.} and Gabrelian, {B. V.} and Vo, {Dat D.} and Tong, {Hien D.} and Denysyuk, {N. M.} and Isaenko, {L. I.} and Tarasova, {A. Y.} and Khyzhun, {O. Y.}",
year = "2020",
month = mar,
day = "17",
doi = "10.1039/d0ra00718h",
language = "English",
volume = "10",
pages = "11156--11164",
journal = "RSC Advances",
issn = "2046-2069",
publisher = "ROYAL SOC CHEMISTRY",
number = "19",

}

RIS

TY - JOUR

T1 - Theoretical and experimental study on the electronic and optical properties of K0.5Rb0.5Pb2Br5

T2 - A promising laser host material

AU - Vu, Tuan V.

AU - Lavrentyev, A. A.

AU - Gabrelian, B. V.

AU - Vo, Dat D.

AU - Tong, Hien D.

AU - Denysyuk, N. M.

AU - Isaenko, L. I.

AU - Tarasova, A. Y.

AU - Khyzhun, O. Y.

PY - 2020/3/17

Y1 - 2020/3/17

N2 - The data on the electronic structure and optical properties of bromide K0.5Rb0.5Pb2Br5 achieved by first-principle calculations and verified by X-ray spectroscopy measurements are reported. The kinetic energy, the Coulomb potential induced by the exchange hole, spin-orbital effects, and Coulomb repulsion were taken into account by applying the Tran and Blaha modified Becke-Johnson function (TB-mBJ), Hubbard U parameter, and spin-orbital coupling effect (SOC) in the TB-mBJ + U + SOC technique. The band gap was for the first time defined to be 3.23 eV. The partial density of state (PDOS) curves of K0.5Rb0.5Pb2Br5 agree well with XES K Ll and Br Kβ2, and XPS spectra. The valence band (VB) is characterized by the Pb-5d3/2 and Pb-5d5/2 sub-states locating in the vicinities of-20 eV and-18 eV, respectively. The VB middle part is mainly formed by K-3p, Rb-4p and Br-4s states, in which the separation of Rb-4p3/2 and Rb-4p1/2 was also observed. The strong hybridization of Br-p and Pb-s/p states near-6.5 eV reveals a major covalent part in the Br-Pb bonding. With a large band gap of 3.23 eV, and the remarkably high possibility of inter-band transition in energy ranges of 4-7 eV, and 10-12 eV, the bromide K0.5Rb0.5Pb2Br5 is expected to be a very promising active host material for core valence luminescence and mid-infrared rare-earth doped laser materials. The anisotropy of optical properties in K0.5Rb0.5Pb2Br5 is not significant, and it occurs at the extrema in the optical spectra. The absorption coefficient α(ω) is in the order of magnitude of 106 cm-1 for an energy range of 5-25 eV.

AB - The data on the electronic structure and optical properties of bromide K0.5Rb0.5Pb2Br5 achieved by first-principle calculations and verified by X-ray spectroscopy measurements are reported. The kinetic energy, the Coulomb potential induced by the exchange hole, spin-orbital effects, and Coulomb repulsion were taken into account by applying the Tran and Blaha modified Becke-Johnson function (TB-mBJ), Hubbard U parameter, and spin-orbital coupling effect (SOC) in the TB-mBJ + U + SOC technique. The band gap was for the first time defined to be 3.23 eV. The partial density of state (PDOS) curves of K0.5Rb0.5Pb2Br5 agree well with XES K Ll and Br Kβ2, and XPS spectra. The valence band (VB) is characterized by the Pb-5d3/2 and Pb-5d5/2 sub-states locating in the vicinities of-20 eV and-18 eV, respectively. The VB middle part is mainly formed by K-3p, Rb-4p and Br-4s states, in which the separation of Rb-4p3/2 and Rb-4p1/2 was also observed. The strong hybridization of Br-p and Pb-s/p states near-6.5 eV reveals a major covalent part in the Br-Pb bonding. With a large band gap of 3.23 eV, and the remarkably high possibility of inter-band transition in energy ranges of 4-7 eV, and 10-12 eV, the bromide K0.5Rb0.5Pb2Br5 is expected to be a very promising active host material for core valence luminescence and mid-infrared rare-earth doped laser materials. The anisotropy of optical properties in K0.5Rb0.5Pb2Br5 is not significant, and it occurs at the extrema in the optical spectra. The absorption coefficient α(ω) is in the order of magnitude of 106 cm-1 for an energy range of 5-25 eV.

KW - DENSITY-FUNCTIONAL THEORY

KW - CORE-VALENCE LUMINESCENCE

KW - LOW-PHONON-ENERGY

KW - PHASE-TRANSITION

KW - DFT CALCULATIONS

KW - BAND-STRUCTURE

KW - KPB2BR5

KW - RBPB2BR5

KW - SPECTROSCOPY

KW - SUBSTITUTION

UR - http://www.scopus.com/inward/record.url?scp=85082553111&partnerID=8YFLogxK

U2 - 10.1039/d0ra00718h

DO - 10.1039/d0ra00718h

M3 - Article

C2 - 35495300

AN - SCOPUS:85082553111

VL - 10

SP - 11156

EP - 11164

JO - RSC Advances

JF - RSC Advances

SN - 2046-2069

IS - 19

ER -

ID: 23906648