Fe3O4–graphene/polyethylene glycol–SiO2 as a phase change material for thermal energy storage

Renewable energy efficiency can be increased using phase change materials (PCMs). This study has successfully developed PCMs with supporting materials, such as SiO2, Fe3O4, and graphene. Briefly, the synthesis of Fe3O4–Graphene/polyethylene glycol (PEG)–SiO2 begins with the synthesis of Fe3O4–Graphe...

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Published inMaterials chemistry and physics Vol. 310; p. 128457
Main Authors Jannah, Widya Nurul, Taufiq, Ahmad, Zulaikah, Siti, Hidayat, Arif, Suharyadi, Edi, Wicaksono, Sigit Tri, Sunaryono, Sunaryono
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2023
Subjects
Fe3O4–graphene
Fe3O4–graphene/PEG–SiO2
Latent heat
PCM
Latent heat
PCM
Fe3O4–graphene
Fe3O4–graphene/PEG–SiO2
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Abstract Renewable energy efficiency can be increased using phase change materials (PCMs). This study has successfully developed PCMs with supporting materials, such as SiO2, Fe3O4, and graphene. Briefly, the synthesis of Fe3O4–Graphene/polyethylene glycol (PEG)–SiO2 begins with the synthesis of Fe3O4–Graphene using the coprecipitation method. Next, Fe3O4–Graphene/PEG–SiO2 nanocomposites are prepared with Fe3O4–Graphene mass varied in a range of 5%–8%. Based on the results, the Eg value of the Fe3O4–Graphene is 1.73 eV. The morphology of Fe3O4–Graphene/PEG–SiO2 shows that Fe3O4 particles stick to the surface of the graphene sheet. The addition of Fe3O4–Graphene mass affects the saturation magnetization value, which increases with an increase in Fe3O4–Graphene within the range of 1.05–2.55 emu/g. In addition, the latent calorific value obtained by differential scanning calorimetry shows that all the samples have a phase transition range within a temperature range of 59.4°C-60.5 °C and a latent calorific value of >100 J/g. Owing to its high latent calorific value, Fe3O4–Graphene/PEG–SiO2 can be applied as a heat-storage material. •The degree of crystallinity of the Fe3O4–Graphene/PCM composite decreased with increasing content of Fe3O4–Graphene.•The Fe3O4–Graphene nanocomposite effectively played a role in the absorption and conversion of solar energy into heat.•The combination of graphene and metal effectively increased the photothermal conversion.•Fe3O4–Graphene/PEG–SiO2 can be applied as a heat-storage material.
AbstractList Renewable energy efficiency can be increased using phase change materials (PCMs). This study has successfully developed PCMs with supporting materials, such as SiO2, Fe3O4, and graphene. Briefly, the synthesis of Fe3O4–Graphene/polyethylene glycol (PEG)–SiO2 begins with the synthesis of Fe3O4–Graphene using the coprecipitation method. Next, Fe3O4–Graphene/PEG–SiO2 nanocomposites are prepared with Fe3O4–Graphene mass varied in a range of 5%–8%. Based on the results, the Eg value of the Fe3O4–Graphene is 1.73 eV. The morphology of Fe3O4–Graphene/PEG–SiO2 shows that Fe3O4 particles stick to the surface of the graphene sheet. The addition of Fe3O4–Graphene mass affects the saturation magnetization value, which increases with an increase in Fe3O4–Graphene within the range of 1.05–2.55 emu/g. In addition, the latent calorific value obtained by differential scanning calorimetry shows that all the samples have a phase transition range within a temperature range of 59.4°C-60.5 °C and a latent calorific value of >100 J/g. Owing to its high latent calorific value, Fe3O4–Graphene/PEG–SiO2 can be applied as a heat-storage material. •The degree of crystallinity of the Fe3O4–Graphene/PCM composite decreased with increasing content of Fe3O4–Graphene.•The Fe3O4–Graphene nanocomposite effectively played a role in the absorption and conversion of solar energy into heat.•The combination of graphene and metal effectively increased the photothermal conversion.•Fe3O4–Graphene/PEG–SiO2 can be applied as a heat-storage material.
ArticleNumber 128457
Author Taufiq, Ahmad
Suharyadi, Edi
Wicaksono, Sigit Tri
Hidayat, Arif
Sunaryono, Sunaryono
Jannah, Widya Nurul
Zulaikah, Siti
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  article-title: Confinement effect of SiO2 framework on phase change of PEG in shape-stabilized PEG/SiO2 composites
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  doi: 10.1016/j.eurpolymj.2012.01.016
  contributor:
    fullname: Yang
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Snippet Renewable energy efficiency can be increased using phase change materials (PCMs). This study has successfully developed PCMs with supporting materials, such as...
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elsevier
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StartPage 128457
SubjectTerms Fe3O4–graphene
Fe3O4–graphene/PEG–SiO2
Latent heat
PCM
Title Fe3O4–graphene/polyethylene glycol–SiO2 as a phase change material for thermal energy storage
URI https://dx.doi.org/10.1016/j.matchemphys.2023.128457
Volume 310
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