Strain‐Engineered Nano‐Ferroelectrics for High‐Efficiency Piezocatalytic Overall Water Splitting

Su, Ran; Wang, Zhipeng; Zhu, Lina; Pan, Ying; Zhang, Dawei; Wen, Hui; Luo, Zheng‐Dong; Li, Linglong; Li, Fa-tang; Wu, Ming; He, Liqiang; Sharma, Pankaj; Seidel, Jan

doi:10.1002/anie.202103112

Cited by 123 publications

(67 citation statements)

References 55 publications

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“…This signifies that the amplitude of the piezopotential should fully reach or exceed the Gibbs free energy threshold of water splitting to energetically assist the reactions, since it is similar to the onset potential in electrocatalysis. A further verification of the important role of piezopotential was made by comparatively testing the overall water splitting performance of strain‐engineered and normal BaTiO 3 [19] . As shown in Figure 7 e,f, only the strain‐engineered BaTiO 3 can produce H 2 and O 2 as a result of the enhancement of the piezopotential (1.6 V).…”

Section: Screening Charge Effectmentioning

confidence: 92%

“…In terms of the positive screening charges,p rotons are considered to be the major species that work as acceptors in piezocatalytic oxidations. [19] Nevertheless,t here are other forms of screening charges,s uch as oxygen vacancies,t hat have received less attention but are also very important for catalytic activity.Anoxygen vacancy (OV) in oxide catalysts provides the active site for redox reactions because of its cationic features. [42] It has been reported that carbon contaminations adsorbed on the external surface can react with lattice oxygen under low temperatures,thereby giving rise to surface OVst hat screen the polarization.…”

Section: Mechanism Elucidation Based On Screening Phenomenonmentioning

confidence: 99%

“…1]. [11c, 19]

true piezoelectrics (PTFE) + normalH_{2} normalO \to_{}^{ultrasound} poled PTFE + OH^{•} + normalH^{+} + normale^{-}

…”

Section: Screening Charge Effectmentioning

confidence: 99%

“…surface charged adsorbates from an external system). More specifically, piezopotential as the driving force should fully reach or exceed the required Gibbs free energy change of a specific reaction, which is deemed the prerequisite for piezocatalysis [19] . Moreover, another significant characteristic that distinguishes the screening charge effect from the energy band theory is that the charges participating in the redox reactions are surface‐adsorbed screening charges from an external system rather than internal charges from the material.…”

Section: Introductionmentioning

confidence: 99%

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The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

Wang

Chen

et al. 2021

Angewandte Chemie

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Piezocatalysis, a newly emerging catalysis technology that relies on the piezopotential and piezoelectric properties of the catalysts, is attracting unprecedented research enthusiasm for applications in energy conversion, organic synthesis, and environmental remediation. Despite the rapid development in the past three years, the mechanism of piezocatalysis is still under debate. A fundamental understanding of the working principles of this technology should enable the future design and optimization of piezocatalysts. Herein, we provide an overview of the two popular theories used to explain the observed piezocatalysis: energy band theory and screening charge effect. A comprehensive discussion and clarification of the differences, relevance, evidence, and contradiction of the two mechanisms are provided. Finally, challenges and perspectives for future mechanistic studies are highlighted. Hopefully, this Review can help readers gain a better understanding of piezocatalysis and enable its application in their own research.

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Section: Screening Charge Effectmentioning

confidence: 92%

Section: Mechanism Elucidation Based On Screening Phenomenonmentioning

confidence: 99%

“…1]. [11c, 19]

true piezoelectrics (PTFE) + normalH_{2} normalO \to_{}^{ultrasound} poled PTFE + OH^{•} + normalH^{+} + normale^{-}

…”

Section: Screening Charge Effectmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

Wang

Chen

et al. 2021

Angewandte Chemie

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“…[ 26 , 28 , 29 , 30 ] The majority of work to date has focused on morphological design, such as the formation of microfibers, [ 10 , 11 , 25 ] nanowires, [ 27 ] nanosheets, [ 9 , 28 , 29 ] and nanoparticles. [ 16 , 31 , 32 ] Other work has been reported on the exploitation of noble metals as the co‐catalyst [ 29 , 30 , 33 ] and maximizing the polarization change when the working temperature is close to the Curie temperature, T c , of a ferroelectric. [ 34 , 35 ] Recent work by Su et al.…”

Section: Introductionmentioning

confidence: 99%

High Efficiency Water Splitting using Ultrasound Coupled to a BaTiO₃ Nanofluid

et al. 2022

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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 3 suspension containing a mixture of cubic and tetragonal phases that splits water under ultrasound is provided. The BaTiO 3 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 3 particles suspended as a nanofluid. Long-term testing demonstrates repeatable H 2 evolution over 4 days with a continuous 24 h period of stable catalysis. A maximum rate of H 2 evolution is found to be 270 mmol h -1 g -1 for a loading of 5 mg l -1 of BaTiO 3 in 10% MeOH/H 2 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.

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Versatile Titanates: Classification, Property, Preparation, and Sustainable Energy Catalysis

Wang

Zhang

2021

Adv Funct Materials

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Global warming, energy deficiency, and environmental deterioration triggered by burning fossil fuels, may severely impair economic development and human life and health. Green solar power, mechanical energy, and temperature fluctuation heat energy abound in nature and are readily accessible. Thanks to various appealing characteristics, titanates are universally employed to harvest these sustainable energy sources to produce renewable fuels through photocatalysis, piezocatalysis, and pyrocatalysis, alleviating above serious issues. In this review, the research progress in energy catalysis driven by solar light, mechanical stress, and temperature fluctuation over titanates is comprehensively described. It starts with the classification and introduction of diverse titanates. Next, the main methods for preparing titanates are introduced. Highlighted are titanates acting as cocatalysts, photocatalysts, piezocatalysts, and pyrocatalysts to participate in water splitting reaction for H 2 evolution and atmospheric CO 2 reduction conversion into CO or hydrocarbons. In particular, the material modification strategies for improving photocatalytic performance are discussed. Finally, the rosy prospects of the future development of energy catalysis application for titanates are looked into.

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Strain‐Engineered Nano‐Ferroelectrics for High‐Efficiency Piezocatalytic Overall Water Splitting

Cited by 123 publications

References 55 publications

The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

High Efficiency Water Splitting using Ultrasound Coupled to a BaTiO₃ Nanofluid

Versatile Titanates: Classification, Property, Preparation, and Sustainable Energy Catalysis

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Strain‐Engineered Nano‐Ferroelectrics for High‐Efficiency Piezocatalytic Overall Water Splitting

Cited by 123 publications

References 55 publications

The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

The Mechanism of Piezocatalysis: Energy Band Theory or Screening Charge Effect?

High Efficiency Water Splitting using Ultrasound Coupled to a BaTiO3 Nanofluid

Versatile Titanates: Classification, Property, Preparation, and Sustainable Energy Catalysis

Contact Info

Product

Resources

About

High Efficiency Water Splitting using Ultrasound Coupled to a BaTiO₃ Nanofluid