Thermoelectric properties of zinc based pnictide semiconductors

Sreeparvathy, P. C.; Kanchana, V.; Vaitheeswaran, G.

doi:10.1063/1.4942011

Cited by 25 publications

(20 citation statements)

References 44 publications

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“…[26][27][28] These properties present the chalcopyrites and pnictides as promising candidates for potential device applications in the fields of semiconductor radiation detectors, 2 electronic, 29 nonlinear optics, 30,31 solar energy, and thermoelectricity. [32][33][34][35][36] Jaffe et al 9 investigated structural and electronic properties of various (II-IV-V 2 ) type compounds using selfconsistent band structure method. Ouahrani et al 15 studied electron localization function, phase transition and compressibility of XSiP 2 (X = Be, Mg, Cd, Zn, Hg) using first principles calculations with WIEN2K and Elk code.…”

Section: Introductionmentioning

confidence: 99%

“…The ternary chalcopyrites and pnictides semiconductor compounds have attracted a considerable research attention because of their peculiar crystal structure as mentioned above and unique physical properties such as high melting point, high index of refraction and nonlinear susceptibility, and so on 26‐28 . These properties present the chalcopyrites and pnictides as promising candidates for potential device applications in the fields of semiconductor radiation detectors, 2 electronic, 29 nonlinear optics, 30,31 solar energy, and thermoelectricity 32‐36 …”

Section: Introductionmentioning

confidence: 99%

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Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

2020

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Summary The ABC2 type ternary semiconductors have attracted much attention owing to their increasing fundamental and technological interest in optoelectronic, thermoelectric and nuclear detector applications. In this paper, using first‐principles methods, we first time reported on structural, optoelectronic, and thermophysical properties of two newly designed ABC2 type ternary semiconductor pnictides namely, K3Cu3P2 and K3Ni3P2. For the comparative analysis of the properties derived from density‐functional‐theory, we employed the most accurate full‐potential linearized augmented plane wave method. To count for electronic correlation and exchange interactions in compounds K3Cu3P2 and K3Ni3P2, we employed modified‐Becke‐Johnson potential and generalized‐gradient‐approximation (GGA) subjected to Hubbard potential U in the form of GGA + U method, respectively. Both the compounds are found to be stable mechanically and thermodynamically, and hence could be synthesized. From the calculated electronic band structures we predict direct band gap semiconducting nature of the compounds with band gap values of order 1.7 eV (spin up)and 1.82 eV (spin down)for K3Ni3P2 and 1.8 eV for K3Cu3P2. The density of states revealed that Ni‐3d and Cu‐3d states contribute mainly in the valence band of the compounds, having moderate spin symmetry in up and down spin polarized states. The calculated optical band gap for K3Ni3P2 is 1.9 eV (spin up) and 1.88 eV (spin down); while for K3Cu3P2 it is 1.8 eV. The optical spectra also showed that the main peak occurred due to hybridization of Ni/Cu‐d states. The optical dispersive spectra exhibit that both materials are efficient absorbers of photons in the UV region. On the other hand, the value of reflectivity is low in IR to visible region, while strong reflectivity is observed in UV part of the spectrum. To investigate the magnetic nature, the computed cell magnetic moment for K3Ni3P2 is 3.0 μB. As such, these materials are suitable in thermophysical and optoelectronic devise applications.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

2020

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“…Our values are in good agreement with other theoretical reports. 37 The mBJ results are comparable in accuracy with the expensive hybrid and GW methods, with the computing cost as low as the GGA calculations. 39 The mBJ have been wildly used in other system, for example in thermoelectric material ZnGeSb 2 .…”

Section: B Electronic Band Structurementioning

confidence: 82%

Quasiparticle effects on the linear and nonlinear susceptibility of ZnGeP₂

et al. 2019

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“…As isoelectronic analogs of III-V zincblende materials, zinc-based chalcopyrites ZnXPn 2 (X = Si, Ge, and Sn; Pn = P, As, and Sb) have recently attracted great attention because of their potential technological applications in nonlinear optics, optoelectronics, and photovoltaics [1][2][3][4][5][6][7][8][9][10] . For instance, ZnGeP 2 can be applied to nonlinear optical devices based on its large nonlinear coefficient, birefringence, and large-area growth availability 3 .…”

Section: Introductionmentioning

confidence: 99%

Pressure-engineered optical properties and emergent superconductivity in chalcopyrite semiconductor ZnSiP2

et al. 2021

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Chalcopyrite II-IV-V2 semiconductors are promising materials in nonlinear optical, optoelectronic, and photovoltaic applications. In this work, pressure-tailored optical properties as well as pressure-driven emergent superconductivity in chalcopyrite ZnSiP2 are reported via photoluminescence (PL) spectroscopy and electrical transport experiments. During compression, the PL peak energy exhibits a plateau between 1.4 and 8.7 GPa, which is accompanied by a piezochromic transition and correlated with the progressive development of cation disorder. Upon further compression across a phase transition from tetragonal to cubic rock-salt structure, superconductivity with a critical temperature Tc ~ 8.2 K emerges immediately. Tc decreases in the range of 24.6–37.1 GPa but inversely increases at higher pressures, thereby exhibiting an unusual V-shaped superconducting phase diagram. These findings present vivid structure–property relationships, which not only offer important clues to optimize the optical and electronic properties, but also provide a new way to use compression to switch between different functionalities.

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Thermoelectric properties of zinc based pnictide semiconductors

Cited by 25 publications

References 44 publications

Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

Quasiparticle effects on the linear and nonlinear susceptibility of ZnGeP₂

Pressure-engineered optical properties and emergent superconductivity in chalcopyrite semiconductor ZnSiP2

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Thermoelectric properties of zinc based pnictide semiconductors

Cited by 25 publications

References 44 publications

Proposal of new stable ABC 2 type ternary semiconductor pnictides K 3 Cu 3 P 2 and K 3 Ni 3 P 2

Proposal of new stable ABC 2 type ternary semiconductor pnictides K 3 Cu 3 P 2 and K 3 Ni 3 P 2

Quasiparticle effects on the linear and nonlinear susceptibility of ZnGeP2

Pressure-engineered optical properties and emergent superconductivity in chalcopyrite semiconductor ZnSiP2

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Product

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Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

Proposal of new stable ABC ₂ type ternary semiconductor pnictides K ₃ Cu ₃ P ₂ and K ₃ Ni ₃ P ₂

Quasiparticle effects on the linear and nonlinear susceptibility of ZnGeP₂