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Advanced science (Weinheim, Baden-Wurttemberg, Germany)
Mar, 2022;9 (9): e2105248.

High Efficiency Water Splitting using Ultrasound Coupled to a BaTiO Nanofluid.

Yan Zhang, Hamideh Khanbareh, Steve Dunn, Chris R Bowen, Hanyu Gong, Nguyen Phuc Hoang Duy, Pham Thi Thuy Phuong
Author Information
  1. Yan Zhang: State Key Laboratory of Powder Metallurgy, Central South University, Changsha, Hunan, 410083, China.
  2. Hamideh Khanbareh: Department of Mechanical Engineering, University of Bath, Claverton Down, Bath, BA2 7AY, UK.
  3. Steve Dunn: Chemical and Energy Engineering, London South Bank University, London, SE1 0AA, UK.
  4. Chris R Bowen: Department of Mechanical Engineering, University of Bath, Claverton Down, Bath, BA2 7AY, UK. ORCID
  5. Hanyu Gong: State Key Laboratory of Powder Metallurgy, Central South University, Changsha, Hunan, 410083, China.
  6. Nguyen Phuc Hoang Duy: Institute of Chemical Technology, Viet Nam Academy of Science and Technology, 1A TL 29 Street, Thanh Loc Ward, District 12, Ho Chi Minh City, Vietnam.
  7. Pham Thi Thuy Phuong: Institute of Chemical Technology, Viet Nam Academy of Science and Technology, 1A TL 29 Street, Thanh Loc Ward, District 12, Ho Chi Minh City, Vietnam.
PMID: 35332701 DOI: 10.1002/advs.202105248

Abstract

To date, a number of studies have reported the use of vibrations coupled to ferroelectric materials for water splitting. However, producing a stable particle suspension for high efficiency and long-term stability remains a challenge. Here, the first report of the production of a nanofluidic BaTiO suspension containing a mixture of cubic and tetragonal phases that splits water under ultrasound is provided. The BaTiO particle size reduces from approximately 400 nm to approximately 150 nm during the application of ultrasound and the fine-scale nature of the particulates leads to the formation of a stable nanofluid consisting of BaTiO particles suspended as a nanofluid. Long-term testing demonstrates repeatable H evolution over 4 days with a continuous 24 h period of stable catalysis. A maximum rate of H evolution is found to be 270 mmol h g for a loading of 5 mg l of BaTiO in 10% MeOH/H O. This work indicates the potential of harnessing vibrations for water splitting in functional materials and is the first demonstration of exploiting a ferroelectric nanofluid for stable water splitting, which leads to the highest efficiency of piezoelectrically driven water splitting reported to date.

Keywords

ferroelectric piezocatalysis piezoelectric sonochemistry ultrasound

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Grants

  1. 104.05-2019.344/Vietnam National Foundation for Science and Technology Development
  2. GCRFNGR2-10059/Academy of Medical Sciences GCRF fund
  3. RGP-2018-290/Leverhulme Trust
  4. 2020WK2004/Key Research and Development Project of Hunan Province in China
  5. /Hundred Youth Talents Program of Hunan
  6. /State Key Laboratory of Powder Metallurgy
  7. /Central South University, and Overseas Talent Introduction Project
Journal Article
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