Eleanor Roake scite author profile

Recently, the coupling of ferroelectrics with electrochemical reactions has attracted increasing interest for harvesting waste heat. The change of polarization of a ferroelectric with temperature can be used to influence chemical reactions, especially when the material is cycled near its Curie temperature. In this perspective, we introduce the principle of pyroelectric controlled electrochemical processes by harvesting waste heat energy and explore their potential electrochemical applications, such as water treatment, air purification, and hydrogen generation. As an emerging approach for driving electrochemical reactions, the presence of thermal fluctuations and/or transient waste heat in the environment has the potential to be the primary thermal input for driving the change in polarization of a pyroelectric to release charge for such reactions. There are a number of avenues to explore, and we summarize strategies for forming multi-functional or hybrid materials and future directions such as selecting pyroelectrics with low Curie temperature (<100 C), improved heat conductivity, enhanced surface area or porosity, tailored microstructures, and systems capable of operating over a broader temperature range.

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Pyro-electrolytic water splitting for hydrogen generation

Zhang

Kumar

Marken

et al. 2019

Nano Energy

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Piezoelectric catalysis for efficient reduction of CO2 using lead-free ferroelectric particulates

Phuong

Duy

et al. 2022

Nano Energy

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Polarisation tuneable piezo-catalytic activity of Nb-doped PZT with low Curie temperature for efficient CO₂ reduction and H₂ generation

et al. 2021

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Hierarchically structured lead-free barium strontium titanate for low-grade thermal energy harvesting

Bao

Huang

Zhou

et al. 2021

Ceramics International

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Eleanor Roake

Thermal Energy Harvesting Using Pyroelectric-Electrochemical Coupling in Ferroelectric Materials

Pyro-electrolytic water splitting for hydrogen generation

Piezoelectric catalysis for efficient reduction of CO2 using lead-free ferroelectric particulates

Polarisation tuneable piezo-catalytic activity of Nb-doped PZT with low Curie temperature for efficient CO₂ reduction and H₂ generation

Hierarchically structured lead-free barium strontium titanate for low-grade thermal energy harvesting

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About

Eleanor Roake

Thermal Energy Harvesting Using Pyroelectric-Electrochemical Coupling in Ferroelectric Materials

Pyro-electrolytic water splitting for hydrogen generation

Piezoelectric catalysis for efficient reduction of CO2 using lead-free ferroelectric particulates

Polarisation tuneable piezo-catalytic activity of Nb-doped PZT with low Curie temperature for efficient CO2 reduction and H2 generation

Hierarchically structured lead-free barium strontium titanate for low-grade thermal energy harvesting

Contact Info

Product

Resources

About

Polarisation tuneable piezo-catalytic activity of Nb-doped PZT with low Curie temperature for efficient CO₂ reduction and H₂ generation