MXene/carbonized bagasse fiber aerogel thermal insulation material

Since the existence of high-density gas voids, Ti3C2Tx (MXene), especially aerogels, whose diverse surface chemistry and porous hollow structure break the continuity of the heat transmission path and effectively reduce its thermal conductivity, has broad prospects in the field of new thermal insulat...

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Published inAIP advances Vol. 14; no. 3; pp. 035112 - 035112-5
Main Authors Zhu, MengQi, Lin, HaiTao, Shan, Xiaoxiao, Jiang, Yong
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.03.2024
AIP Publishing LLC
Subjects
Aerogels
Bagasse
Compressive properties
Environmental protection
Heat transfer
Heat transmission
Hydroxyethyl celluloses
Mechanical properties
MXenes
Thermal conductivity
Thermal insulation
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Abstract Since the existence of high-density gas voids, Ti3C2Tx (MXene), especially aerogels, whose diverse surface chemistry and porous hollow structure break the continuity of the heat transmission path and effectively reduce its thermal conductivity, has broad prospects in the field of new thermal insulation materials. Herein, MXene and carbonized bagasse fiber (CBF) are compounded into a special aerogel through hydroxyethyl cellulose, which not only reduces its cost but also improves its thermal insulation and mechanical properties. MXene/CBF aerogels have low thermal conductivity (69 mW·m−1·K−1) and excellent compressive stress (1.04 MPa), which make them to be used in the field of environmental protection and heat insulation materials.
AbstractList Since the existence of high-density gas voids, Ti3C2Tx (MXene), especially aerogels, whose diverse surface chemistry and porous hollow structure break the continuity of the heat transmission path and effectively reduce its thermal conductivity, has broad prospects in the field of new thermal insulation materials. Herein, MXene and carbonized bagasse fiber (CBF) are compounded into a special aerogel through hydroxyethyl cellulose, which not only reduces its cost but also improves its thermal insulation and mechanical properties. MXene/CBF aerogels have low thermal conductivity (69 mW·m−1·K−1) and excellent compressive stress (1.04 MPa), which make them to be used in the field of environmental protection and heat insulation materials.
Author Shan, Xiaoxiao
Jiang, Yong
Zhu, MengQi
Lin, HaiTao
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Snippet Since the existence of high-density gas voids, Ti3C2Tx (MXene), especially aerogels, whose diverse surface chemistry and porous hollow structure break the...
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SubjectTerms Aerogels
Bagasse
Compressive properties
Environmental protection
Heat transfer
Heat transmission
Hydroxyethyl celluloses
Mechanical properties
MXenes
Thermal conductivity
Thermal insulation
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Title MXene/carbonized bagasse fiber aerogel thermal insulation material
URI http://dx.doi.org/10.1063/5.0194659
https://www.proquest.com/docview/2938042721
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