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Large harvested energy with non-linear pyroelectric modules

Pierre Lhéritier, Àlvar Torelló, Tomoyasu Usui, Youri Nouchokgwe, Ashwath Aravindhan, Junning Li, Uroš Prah, Veronika Kovacova, Olivier Bouton, S. Hirose, Emmanuel Defaÿ

2022Nature97 citationsDOIOpen Access PDF

Abstract

Abstract Coming up with sustainable sources of electricity is one of the grand challenges of this century. The research field of materials for energy harvesting stems from this motivation, including thermoelectrics 1 , photovoltaics 2 and thermophotovoltaics 3 . Pyroelectric materials, converting temperature periodic variations in electricity, have been considered as sensors 4 and energy harvesters 5–7 , although we lack materials and devices able to harvest in the joule range. Here we develop a macroscopic thermal energy harvester made of 42 g of lead scandium tantalate in the form of multilayer capacitors that produces 11.2 J of electricity per thermodynamic cycle. Each pyroelectric module can generate up to 4.43 J cm −3 of electric energy density per cycle. We also show that two of these modules weighing 0.3 g are sufficient to sustainably supply an autonomous energy harvester embedding microcontrollers and temperature sensors. Finally, we show that for a 10 K temperature span these multilayer capacitors can reach 40% of Carnot efficiency. These performances stem from (1) a ferroelectric phase transition enabling large efficiency, (2) low leakage current preventing losses and (3) high breakdown voltage. These macroscopic, scalable and highly efficient pyroelectric energy harvesters enable the reconsideration of the production of electricity from heat.

Topics & Concepts

PyroelectricityMaterials scienceEnergy harvestingCapacitorPhotovoltaicsThermophotovoltaicElectricityOptoelectronicsEngineering physicsCarnot cycleVoltageElectrical engineeringThermal energyPhotovoltaic systemFerroelectricityPhysicsEnergy (signal processing)DielectricEngineeringThermodynamicsQuantum mechanicsCommon emitterInnovative Energy Harvesting TechnologiesAdvanced Thermoelectric Materials and DevicesFerroelectric and Piezoelectric Materials
Large harvested energy with non-linear pyroelectric modules | Litcius