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Wavy-Structured Carbon Nanotube Photo-Thermoelectric Device for Self-Powered Sensing and Energy Harvesting

Heng Wang, Qi-Rui Yang, Xuefei Feng, Li Xinlin, Jianwei Liu

2025ACS Nano8 citationsDOI

Abstract

Fabrication of flexible photothermoelectric (PTE) devices represents a promising approach for harvesting solar and low-grade thermal energy. However, most PTE devices focus on enhancing temperature gradients (Δ T ) through rigid three-dimensional structures, lacking flexibility, all-weather power generation capabilities, and being unable to achieve synchronized changes in photothermal and structural properties. Here, this paper designs a flexible PTE device with a wave-like structure, integrating thermo-actuation technology with a radiative cooling strategy, and achieving a photothermal device featuring reversible structural deformation, stable temperature gradients, and all-weather power generation. The photothermal response is achieved by forming a highly integrated p–n junction array through spaced printing of surface-functionalized single-walled carbon nanotubes (SWCNTs) on a polyimide (PI) film. Simultaneously, the mismatched thermal expansion coefficients between Al 2 O 3 @PDMS and PI enable reversible thermally driven deformation of the PTE. The resulting wave-like structure enhances the temperature gradient between the hot and cold sides, boosting photothermal conversion efficiency. The presence of Al 2 O 3 nanoparticles confers radiative cooling properties, reflecting solar radiation and increasing the effective heat dissipation area to maintain a stable temperature gradient under illumination. This structural design enables the PTE device to achieve a Δ T of 20 K under 100 mW cm –2 solar irradiation, overcoming the limitations of conventional photothermal devices, and it allows for nighttime energy harvesting, enabling round-the-clock power generation. This strategy offers a design approach for thermal management and the efficient conversion of light and heat energy.

Topics & Concepts

Materials sciencePhotothermal therapyCarbon nanotubeOptoelectronicsFabricationNanotechnologyEnergy conversion efficiencyRadiative coolingEnergy harvestingEnergy transformationThermalThermal insulationSolar energyThermal management of electronic devices and systemsDissipationNanoparticlePhotovoltaic systemAerogelTemperature gradientPhotothermal effectThermal conductivityRadiative transferHeat generationCarbon fibersThermal energyRadiant energyThermoelectric effectNanomaterialsThermal radiationOsmotic powerRadiationThermal Radiation and Cooling TechnologiesAdvanced Thermoelectric Materials and DevicesSolar-Powered Water Purification Methods
Wavy-Structured Carbon Nanotube Photo-Thermoelectric Device for Self-Powered Sensing and Energy Harvesting | Litcius