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Biomass derived carbon aerogel as an ultrastable skeleton of form-stable phase change materials for efficient thermal energy storage

Zhiqiang Zou, Wei Wu, Yi Wang, Dietmar Drummer

2020Materials Research Express29 citationsDOIOpen Access PDF

Abstract

Abstract Direct conversion of biomass to carbon aerogel provides a promising approach to developing supporting material for phase change materials (PCMs). In present work, carrot and pumpkin derived carbon aerogels (CCA and PCA) were fabricated via a hydrothermal and post-sintering process. N 2 adsorption-desorption isotherms were used to evaluate the specific surface area and pore distribution of the carbon aerogels. It showed that the carrot carbon aerogel sintered at 800 °C (CCA800) possessed a specific surface area of 33.80 m 2 ·g −1 , which is separately 168%, 165%, and 287% higher than that of carrot carbon aerogel sintered at 1000 °C (CCA1000, 12.59 m 2 ·g −1 ), pumpkin carbon aerogel sintered at 800 °C (PCA800, 12.77 m 2 ·g −1 ), and pumpkin carbon aerogel sintered at 1000 °C (PCA1000, 8.74 m 2 ·g −1 ). Owing to its porosity, the carbon aerogels with a high loading content of palmitic acid (PA)/thiol-ene resin (TE) composite as a PCM without leakage. A thermal conductivity enhancement of 60.5% was achieved by 50PA/TE@PCA1000 compared with 50PA/TE, and DSC result showed its latent heat of 88.26 J/g. The excellent properties of PCMs composites lead to a promising application foreground.

Topics & Concepts

AerogelMaterials scienceCarbon fibersAdsorptionSpecific surface areaSinteringChemical engineeringDesorptionPorosityComposite numberComposite materialChemistryOrganic chemistryCatalysisEngineeringPhase Change Materials ResearchSolar-Powered Water Purification MethodsAdsorption and Cooling Systems