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Enhanced infrared radiation of LaAlO3 ceramics via Co2+ doping

Xueqing Wang, Qinghua Wang, Liang Huang, Xiong Liang, Yibiao Xu, Yawei Li, Shaobai Sang, Gang He, Yi‐Xiang Chen, Yong Li, Jiangtao Li

2023Ceramics International30 citationsDOIOpen Access PDF

Abstract

Infrared radiation (IR) ceramics are generally recognized as energy-saving materials for thermal equipment. In this work, as novel infrared radiation ceramics, Co 2+ -doped LaAlO 3 ceramics were synthesized via a solid-phase reaction method, and the influence of the Co 2+ doping concentration on the infrared emissivity of ceramics was systematically investigated. The original Al element position was replaced by Co in Co 2+ -doped LaAlO 3 , leading to lattice distortion , oxygen vacancy generation and the "Co 2+ →Co 3+ " transformation. The increase in doped Co content leads to enhanced impurity absorption, free carrier absorption and lattice vibration absorption, which significantly improve infrared emissivity. The average emissivity values in the 0.76–2.5 μm and 2.5–14 μm bands of the LaAl 0.6 Co 0.4 O 3-δ specimen (40 mol% Co) are 0.89 and 0.86 respectively, which are 324% and 28% higher than those of pure LaAlO 3 . This novel Co 2+ -doped LaAlO 3 ceramic with high infrared emissivity has significant application prospects for energy-saving applications of thermal equipment.

Topics & Concepts

EmissivityMaterials scienceInfraredCeramicDopingInfrared spectroscopyAbsorption (acoustics)Analytical Chemistry (journal)OptoelectronicsOpticsComposite materialPhysicsChemistryQuantum mechanicsChromatographyLuminescence Properties of Advanced MaterialsThermal Radiation and Cooling TechnologiesOptical properties and cooling technologies in crystalline materials
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