Improved Photocatalytic Hydrogen Evolution on Tantalate Perovskites CsTaO 3 and LiTaO 3 by Strain-Induced Vacancies

Kaveh Edalati; Keisuke Fujiwara; Shuhei Takechi; Qing Wang; Makoto Arita; Motonori Watanabe; Xavier Sauvage; Tatsumi Ishihara; Zenji Horita

doi:10.1021/acsaem.9b02197

Article Dans Une Revue ACS Applied Energy Materials Année : 2020

Improved Photocatalytic Hydrogen Evolution on Tantalate Perovskites CsTaO 3 and LiTaO 3 by Strain-Induced Vacancies

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Kaveh Edalati

Fonction : Auteur
PersonId : 791206
ORCID : 0000-0003-3885-2121

International Institute for Carbon-Neutral Energy Research

Keisuke Fujiwara

Fonction : Auteur

Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University, Fukuoka

Shuhei Takechi

Fonction : Auteur

Kyushu University

Qing Wang

Fonction : Auteur

College of Information and Electrical Engineering [Beijing]

Makoto Arita

Fonction : Auteur
PersonId : 791207
ORCID : 0000-0001-9902-0463

Department of Materials Science and Engineering, Faculty of Engineering, Kyushu University, Fukuoka

Motonori Watanabe

Fonction : Auteur

International Institute for Carbon-Neutral Energy Research

Xavier Sauvage

Fonction : Auteur
PersonId : 173259
IdHAL : xavier-sauvage
ORCID : 0000-0001-8247-803X
IdRef : 061081124

Groupe de physique des matériaux

Tatsumi Ishihara

Fonction : Auteur

International Institute for Carbon-Neutral Energy Research

Zenji Horita

Fonction : Auteur

International Institute for Carbon-Neutral Energy Research

Résumé

Tantalate perovskites are potential candidates for photocatalytic hydrogen production without cocatalyst addition; however, these oxides have large bandgaps, which result in their low photocatalytic activity. In this study, to enhance the photocatalytic activity, CsTaO3 as a potential photocatalyst and LiTaO3 as a well-known photocatalyst are subjected to severe plastic strain using the high-pressure torsion (HPT) method. Both superstrained tantalates exhibit optical bandgap narrowing and ∼2.5 times enhancement of photocatalytic hydrogen production. Such bandgap narrowing is mainly due to the formation of oxygen vacancies, although nanocrystal formation and partial amorphization also occur by straining. These findings not only introduce CsTaO3 as a photocatalyst but also confirm the significance of strain-induced vacancies on the photocatalytic activity of perovskites.

Mots clés

severe plastic deformation (SPD ) high-pressure torsion (HPT) Photocatalysis Lithium tantalate Cesium tantalate Oxygen vacancy Severe plastic deformation (SPD) High-pressure torsion (HPT)

Domaines

Science des matériaux [cond-mat.mtrl-sci]

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Tantalates hal acs2020.pdf (1.6 Mo)

Origine : Fichiers produits par l'(les) auteur(s)

Xavier Sauvage : Connectez-vous pour contacter le contributeur

https://normandie-univ.hal.science/hal-02521071

Soumis le : jeudi 7 mai 2020-10:48:42

Dernière modification le : mercredi 24 avril 2024-13:36:03

Dates et versions

hal-02521071 , version 1 (07-05-2020)

Identifiants

HAL Id : hal-02521071 , version 1
DOI : 10.1021/acsaem.9b02197

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Kaveh Edalati, Keisuke Fujiwara, Shuhei Takechi, Qing Wang, Makoto Arita, et al.. Improved Photocatalytic Hydrogen Evolution on Tantalate Perovskites CsTaO 3 and LiTaO 3 by Strain-Induced Vacancies. ACS Applied Energy Materials, 2020, 3 (2), pp.1710-1718. ⟨10.1021/acsaem.9b02197⟩. ⟨hal-02521071⟩

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Improved Photocatalytic Hydrogen Evolution on Tantalate Perovskites CsTaO 3 and LiTaO 3 by Strain-Induced Vacancies

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