Litcius/Paper detail

Femtosecond laser synthesis of multiscale high-entropy alloys/graphene composites for high-performance Joule heating

Lingxiao Wang, Kai Yin, Jianqiang Xiao, Xinghao Song, Jiaqing Pei, Jun He, Ji-an Duan

2026Nature Communications15 citationsDOIOpen Access PDF

Abstract

Abstract High-entropy alloy nanoparticles (HEA-NPs) have garnered significant interest across diverse fields. However, thus far, research on their applications has predominantly focused on electrocatalysis. Expanding the applications of HEA-NPs beyond current fields is timely and desirable but remains a challenge. Here, we demonstrate the successful femtosecond laser synthesis of HEA-NPs on the laser-induced graphene (LIG) for realizing high-performance Joule heating applications. This prepared composites (HEAs/LIG) exhibits exceptional electrothermal conversion ability with efficiency up to ~285.4 °C cm 2 W −1 . Furthermore, the HEAs/LIG also shows high broadband infrared emissivity of ~0.98 across the wavelength range from 2.5 to 20 μm. Finally, we present the applications of HEAs/LIG as an efficient Joule heater, which consumes ~49.1% less energy compared to conventional electrical heaters in winter. This work expands the application of HEA-NPs into the Joule heating field, and underlining the importance of further development in efficient energy utilization technology.

Topics & Concepts

Joule heatingMaterials scienceJoule (programming language)FemtosecondGrapheneLaserOptoelectronicsPhotothermal therapyInfraredEmissivityElectric heatingWork (physics)NanotechnologyEnergy transformationBroadbandHigh energyEngineering physicsComposite materialWavelengthRange (aeronautics)Thermal management of electronic devices and systemsEnergy (signal processing)Current (fluid)Joule effectNanoparticleEfficient energy useEnergy conversion efficiencyElectric fieldAlloyElectric currentRenewable energyHigh Entropy Alloys StudiesLaser Material Processing TechniquesLaser-Ablation Synthesis of Nanoparticles