2022
DOI: 10.1039/d1qm01631h
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Facile synthesis of shape-stable phase-change composites via the adsorption of stearic acid onto cellulose microfibers

Abstract: Phase change materials (PCMs) offer an exciting way to facilitate energy consumption from renewables and develop responsive energy management by storing and releasing thermal energy as latent heat of reversible...

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Cited by 16 publications
(16 citation statements)
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References 78 publications
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“…The calculated thermal storage capability of PEG6000/CS6 was 98.37%, whereas that of PGO-CTAB/CS6 PCMs was higher than 99.00%. The high crystallinity of PEG suggests that the addition of GO-CTAB helped to eliminate the confinement effects when PEG6000 was loaded on biochars in restricted volume, and PEG6000 adsorbed on the biochar surface and micropores is free to undergo reversible phase transitions [ 32 ]. Meanwhile, the crystallinity of PEG in GO-PEG PCMs are of 98.31–98.96%, which are lower than that in GO-PEG/biochar PCMs (all above 99%), indicating the induction of crystallization of biochar towards PEG6000.…”
Section: Resultsmentioning
confidence: 99%
“…The calculated thermal storage capability of PEG6000/CS6 was 98.37%, whereas that of PGO-CTAB/CS6 PCMs was higher than 99.00%. The high crystallinity of PEG suggests that the addition of GO-CTAB helped to eliminate the confinement effects when PEG6000 was loaded on biochars in restricted volume, and PEG6000 adsorbed on the biochar surface and micropores is free to undergo reversible phase transitions [ 32 ]. Meanwhile, the crystallinity of PEG in GO-PEG PCMs are of 98.31–98.96%, which are lower than that in GO-PEG/biochar PCMs (all above 99%), indicating the induction of crystallization of biochar towards PEG6000.…”
Section: Resultsmentioning
confidence: 99%
“…PCMs can be classified into three main categories based on their chemical nature: organic (o-PCMs), inorganic (io-PCMs) and a combination of both called eutectic (eu-PCMs). 76,[153][154][155][156][157][158][159] PCMs can also be categorised based on their operating temperature range, latent heat of fusion and energy storage mode. An ideal PCM should have all the necessary characteristics for effective thermal energy storage, but often, a combination of materials is used to achieve the desired properties.…”
Section: Pcm Composites For Controlled Heat Storagementioning
confidence: 99%
“…Introducing carbon-based fillers for strengthening in 𝜆 of PI films is the most common method. [104,105] Kim et al [106] used unmodified CB as filler, the 𝜆 of PI film was up to 5.59 W (m K) −1 when its loading was 150 wt.%. Chao et al [107] used modified multi-walled carbon nanotubes (MWCNT) to compound with PI, the 𝜆 of PI film containing 3 wt.% modified MWCNT reached to 0.44 W (m K) −1 .…”
Section: Effect Of Filler Type On Thermally Conductive Behavior Of Pi...mentioning
confidence: 99%
“…Introducing carbon‐based fillers for strengthening in λ of PI films is the most common method. [ 104,105 ] Kim et al. [ 106 ] used unmodified CB as filler, the λ of PI film was up to 5.59 W (m K) −1 when its loading was 150 wt.%.…”
Section: High‐λ Fillers Strengthened Thermally Conductive Pi Filmmentioning
confidence: 99%