Tuning of hole carrier density in p-type α-SnWO<sub>4</sub> by exploiting oxygen defects

Minohara, Makoto; Dobashi, Yuka; Kikuchi, Naoto; Samizo, Akane; Honda, Toshio; He, Xinyi; Katase, Takayoshi; Kamiya, Toshio; Nishio, K.; Aiura, Y.

doi:10.1039/d2ma00815g

Cited by 5 publications

(8 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Minohara et al fabricated a p-type α-SnWO 4 by controlling the annealing temperature or the concentration of oxygen defects. 44,45 α-SnWO 4 samples with n-type conductivity, however, are more common. Several density functional theory (DFT) calculations have been performed to understand the electronic structure of α-SnWO 4 .…”

Section: Materials Propertiesmentioning

confidence: 99%

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Kong,

Abdi

2023

Inorg. Chem. Front.

View full text Add to dashboard Cite

show abstract

Section: Materials Propertiesmentioning

confidence: 99%

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Kong,

Abdi

2023

Inorg. Chem. Front.

View full text Add to dashboard Cite

show abstract

“…Semiconductors containing post-transition metal cations with a lone pair ( n s 2 n p 0 ) electronic configuration (Sn 2+ , Sb 3+ , Pb 2+ , Bi 3+ ) are a special class of photoabsorbers in solar-to-energy conversion systems. − The filled s orbitals interact with anion orbitals to form the upper valence band, providing unique optoelectronic properties such as defect tolerance, reduced hole effective mass, , and shallow ionization potentials. These effects have led to promising photo(electro)catalysts such as BiVO 4 , , Bi 4 NbO 8 Cl, , and Pb 2 Ti 2 O 5.4 F 1.2 …”

mentioning

confidence: 99%

Band Gap Narrowing by Suppressed Lone-Pair Activity of Bi³⁺

Ogawa,

Abe,

Walsh

2024

J. Am. Chem. Soc.

View full text Add to dashboard Cite

Post-transition metal cations with a lone pair (ns 2 np 0 ) electronic configuration such as Pb 2+ and Bi 3+ are important components of materials for solar-to-energy conversion. As in molecules like NH 3 , the lone pair is often stereochemically active in crystals, associated with distorted coordination environments of these cations. In the present study, we demonstrate that suppressed lone pair stereochemical activity can be used as a tool to enhance visible light absorption. Based on an orbital interaction model, we predict that a centrosymmetric environment of the cations limits the orbital interactions with anions, deactivates the lone pair, and narrows the band gap. A high-symmetry Bi 3+ site is realized by isovalent substitutions with Y 3+ by considering its similar ionic radius and absence of a lone pair. The quaternary photocatalyst Bi 2 YO 4 X is singled out as a candidate for Bi substitution from a survey of the coordination environments in Y−O compounds. The introduction of Bi 3+ to the undistorted Y 3+ site in Bi 2 YO 4 X results in a narrowed band gap, as predicted theoretically and confirmed experimentally. The orbital interaction controlled by site symmetry engineering offers a pathway for the further development of post-transition metal compounds for optoelectronic applications.

show abstract

“…The generation of electrons by the formation of interstitial oxygen was also reported in α-SnWO 4 . 18 However, the source of electrons is still an open question because the interstitial oxygen is not an electrically active defect on the basis of theory. 51,52 Finding v suggested that the O 2p z and Sn 5s,5p hybridization states forming the lone pair were destabilized in the thin SnO films.…”

mentioning

confidence: 99%

“…Via application of these functionalities, high-efficiency perovskite solar cells, lead-free ferroelectrics, and p-type oxide semiconductors and photocatalysts for water splitting have been designed and developed. − The development of p-type oxide semiconductors with a wide bandgap is essential for realizing innovative electronic devices for ultralow power consumption in transparent , and high-power , electronics. Recently, state-of-the-art p-type oxide semiconductors have been developed on the basis of the lone-pair states of Sn 2+ or Bi 3+ . − The optical bandgap was manipulated by transforming the chemical composition from infrared to ultraviolet. , Furthermore, hole densities of Sn 2+ - or Bi 3+ -based complex oxides were controlled over several orders of magnitude using precise defect control or intentional chemical doping. , …”

mentioning

confidence: 99%

See 1 more Smart Citation

Destabilization of Sn²⁺ 5s² Lone-Pair States of SnO through Dimensional Crossover

Minohara

Nemoto

Asanuma

et al. 2023

J. Phys. Chem. Lett.

Self Cite

View full text Add to dashboard Cite

Materials exhibiting unique electronic properties arising from a characteristic crystal structure have physical properties that are sensitive to structural dimensionality. This study involves the destabilization of Sn 5s2 lone-pair states of SnO films by decreasing their structural dimensionality in the out-of-plane direction. The inherent dispersive band structure of the SnO films remained unchanged between 80 and 11 nm. Below 11 nm, their dispersive band structure disappeared, the O/Sn ratio increased, and the carrier type changed from the p type to the n type, whereas the Sn valency remained constant at +2. These unconventional changes arose from the electronic separation corresponding to the Debye length, which is proportional to permittivity, and were attributed to weakened interactions between Sn 5s2 lone-pair electrons. Therefore, designing low-permittivity materials is beneficial for reducing the crystallite size required for stabilizing lone-pair states. These results are essential for designing emergent p-type oxides and improving their semiconducting properties and performance in transparent or high-power electronics.

show abstract

Tuning of hole carrier density in p-type α-SnWO₄ by exploiting oxygen defects

Abstract: The development of p-type oxide semiconductors has shown promise in overcoming limitations restricting the practical usage of oxide semiconductors and the realization of innovative functional devices. Through numerous studies based...

Cited by 5 publications

References 39 publications

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Band Gap Narrowing by Suppressed Lone-Pair Activity of Bi³⁺

Destabilization of Sn²⁺ 5s² Lone-Pair States of SnO through Dimensional Crossover

Contact Info

Product

Resources

About

Tuning of hole carrier density in p-type α-SnWO4 by exploiting oxygen defects

Abstract: The development of p-type oxide semiconductors has shown promise in overcoming limitations restricting the practical usage of oxide semiconductors and the realization of innovative functional devices. Through numerous studies based...

Cited by 5 publications

References 39 publications

Recent progress in the development of tin tungstate (α-SnWO4) photoanodes for solar water oxidation

Recent progress in the development of tin tungstate (α-SnWO4) photoanodes for solar water oxidation

Band Gap Narrowing by Suppressed Lone-Pair Activity of Bi3+

Destabilization of Sn2+ 5s2 Lone-Pair States of SnO through Dimensional Crossover

Contact Info

Product

Resources

About

Tuning of hole carrier density in p-type α-SnWO₄ by exploiting oxygen defects

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Recent progress in the development of tin tungstate (α-SnWO₄) photoanodes for solar water oxidation

Band Gap Narrowing by Suppressed Lone-Pair Activity of Bi³⁺

Destabilization of Sn²⁺ 5s² Lone-Pair States of SnO through Dimensional Crossover