Electronic and thermodynamic properties of native point defects in V<sub>2</sub>O<sub>5</sub>: a first-principles study

Ngamwongwan, Lappawat; Fongkaew, Ittipon; Jungthawan, Sirichok; Hirunsit, Pussana; Limpijumnong, Sukit; Suthirakun, Suwit

doi:10.1039/d0cp06002j

Cited by 25 publications

(31 citation statements)

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“…We should also point out that electron-phonon coupling has been found to play an important role in V 2 O 5 and leads to the formation of self-trapped polarons. [43][44][45] The transport is therefore of polaron hopping nature. Finally, the anisotropy of the phonons in both V 2 O 5 and MoO 3 leads to fairly wide frequency ranges where the dielectric function in the mid-infrared range is positive in one direction and negative in another.…”

Section: D Effects On Phonons: V2o5 and Moo3mentioning

confidence: 99%

“…Ultrathin layers of MoO 3 have been successfully exfoliated and high mobilities have been reported by some authors. [42] The properties of these layered materials, which in their pure form are fairly wide gap insulators, are strongly modified by defects, such as oxygen vacancies [43][44][45] or by intercalation with alkali or alkaline earth atoms. This leads essentially to doping of the lowest conduction bands of the insulator with electrons and turns them into n-doped semiconductors.…”

Section: Introduction: Why 2d Oxides?mentioning

confidence: 99%

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Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Radha

Crowley

Holler

et al. 2021

Journal of Applied Physics

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for electronic devices. Oxides constitute a broad family of materials with a wide range of potential applications, from catalysis to electronic, photonic, ferroelectric, magnetic and multiferroic functionalities. Understanding structure-property relations in free-standing, supported, and confined two-dimensional ceramics or "ceramic flatlands" has been identified as one of the challenges for future work in ceramics by a recent National Science Foundation workshop. [9] Nonetheless, over the last decade, there have been many reviews on 2D oxides either as the main focus or as a part of a more general nano-materials focused review papers or books. One of the earlier reviews of nanosheets of oxides and hydroxides focused on synthesis, properties -especially photon-induced behavior -and their assembly, was published in 2010 by Ma et al. [11], followed by a second review [12] as a part of a special issue on "2D Nanomaterials beyond Graphene" in 2015. Around the same time (2011) another review by Mas-Balleste et al.[13] also emphasized the importance and variety of 2D oxides. A more recent focused review on 2D oxides can be found in 2019 paper of Hinterding et al.

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Section: D Effects On Phonons: V2o5 and Moo3mentioning

confidence: 99%

Section: Introduction: Why 2d Oxides?mentioning

confidence: 99%

Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Radha

Crowley

Holler

et al. 2021

Journal of Applied Physics

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“…The transfer characteristic is shown in Figure a, with V DS = 0.1 V. Modulation of the conductance of the oxide-based EGFET sensors upon the binding of the target depends on the concentration . Native n-doping is commonly attributed to the omnipresent electron-donating oxygen vacancies, especially in metal oxide, even though the n-doping character of oxygen vacancies has been disputed . Surface potential change leads to the gradient shift in threshold voltage of the I DS – V GS curve when a MoO 3 sensing membrane exposed in different aqueous buffer solutions.…”

Section: Resultsmentioning

confidence: 99%

“…26 Native n-doping is commonly attributed to the omnipresent electron-donating oxygen vacancies, especially in metal oxide, 27 even though the n-doping character of oxygen vacancies has been disputed. 28 3a,b. Compared with other devices, a relatively higher sensitivity gives a clue of smaller grain size and smoother topography.…”

Section: Resultsmentioning

confidence: 99%

Fabrication of a Mesoporous Multimetallic Oxide-based Ion-Sensitive Field Effect Transistor for pH Sensing

Rao

Cai

et al. 2021

ACS Omega

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Sensitive and reliable noninvasive sensors are in demand to cope with an increasing need for robust working conditions and fast results. One of the leading potential technologies is field-effect transistor (FET)-based sensors to improve response time, sensitivity, and stability. Here, a sol−gel method fabricates an ion-sensitive field-effect transistor with a high current and output sensitivity for electrochemical sensing, solving binary device design, component regulating, and long-term stability, while maintaining the promoted sensitivity. Metal oxidebased devices with single and binary contents are fabricated and characterized for monitoring pH changes, with performance fitted to a Nernst−Poisson model. After detecting the performance, the result was compared with devices in different components and ratios to obtain excellent performance and high stability. In addition, these extended gate FETs with multimetallic oxide promise efficiency and stability optimization in terms of a flexible component design, demonstrating the feasibility of the novel sol−gel fabrication method to achieve efficient and reliable FET sensors.

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“…Later work showed that the effect was largely overestimated and that it should rather reduce the gap by an amount of the order of 0.2 eV, way too small to account for the gap overestimate 33,34 . While the formation of self-trapped electron polarons has been found to be important in V 2 O 5 [35][36][37] , they are not expected to occur at the time scale of an optical absorption and can thus not explain the discrepancy. On the purely electronic side, the accuracy of QSGW calculations is limited by the fact that no electron-hole interaction effects are included in the calculation of W .…”

Section: Introductionmentioning

confidence: 98%

Delocalization of dark and bright excitons in flat-band materials and the optical properties of V$_2$O$_5$

Gorelov,

Reining,

Feneberg

et al. 2022

Preprint

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The simplest picture of excitons in materials with atomic-like localization of electrons is that of Frenkel excitons, where electrons and holes stay close together, which is associated with a large binding energy. Here, using the example of the layered oxide V 2 O 5 , we show how localized charge-transfer excitations combine to form excitons that also have a huge binding energy but, at the same time, a large electron-hole distance, and we explain this seemingly contradictory finding. The anisotropy of the exciton delocalization is determined by the local anisotropy of the structure, whereas the exciton extends orthogonally to the chains formed by the crystal structure. Moreover we show that the bright exciton goes together with a dark exciton of even larger binding energy and more pronounced anisotropy. These findings are obtained by combining first principles many-body perturbation theory calculations, ellipsometry experiments, and tight binding modelling, leading to very good agreement and a consistent picture. Our explanation is general and can be extended to other materials.

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Electronic and thermodynamic properties of native point defects in V₂O₅: a first-principles study

Abstract: Formation of native point defects in semiconductor and their behaviors play a crucial role in material properties. Although native defects of V2O5 include vacancies, self-interstitials, and antisites, only oxygen vacancy...

Cited by 25 publications

References 96 publications

Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Fabrication of a Mesoporous Multimetallic Oxide-based Ion-Sensitive Field Effect Transistor for pH Sensing

Delocalization of dark and bright excitons in flat-band materials and the optical properties of V$_2$O$_5$

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Electronic and thermodynamic properties of native point defects in V2O5: a first-principles study

Abstract: Formation of native point defects in semiconductor and their behaviors play a crucial role in material properties. Although native defects of V2O5 include vacancies, self-interstitials, and antisites, only oxygen vacancy...

Cited by 25 publications

References 96 publications

Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Ultrathin 2D-oxides: A perspective on fabrication, structure, defect, transport, electron, and phonon properties

Fabrication of a Mesoporous Multimetallic Oxide-based Ion-Sensitive Field Effect Transistor for pH Sensing

Delocalization of dark and bright excitons in flat-band materials and the optical properties of V$_2$O$_5$

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Electronic and thermodynamic properties of native point defects in V₂O₅: a first-principles study