2024
DOI: 10.1002/eem2.12698
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Advances in Liquid Crystal Epoxy: Molecular Structures, Thermal Conductivity, and Promising Applications in Thermal Management

Wenying Zhou,
Yun Wang,
Fanrong Kong
et al.

Abstract: Traditional heat conductive epoxy composites often fall short in meeting the escalating heat dissipation demands of large‐power, high‐frequency, and high‐voltage insulating packaging applications, due to the challenge of achieving high thermal conductivity (k), desirable dielectric performance, and robust thermomechanical properties simultaneously. Liquid crystal epoxy (LCE) emerges as a unique epoxy, exhibiting inherently high k achieved through the self‐assembly of mesogenic units into ordered structures. Th… Show more

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Cited by 14 publications
(1 citation statement)
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“…A key feature of liquid crystals is their ability to perform molecular ordering. Mesogenic LCER elements are usually arranged in smectic and nematic structures, either spontaneously or as a result of the presence of external factors that give the material the desired order [22]. The typical components, structure, and molecular order of LC epoxy monomers are shown in Figure 2.…”
Section: Liquid Crystal Epoxiesmentioning
confidence: 99%
“…A key feature of liquid crystals is their ability to perform molecular ordering. Mesogenic LCER elements are usually arranged in smectic and nematic structures, either spontaneously or as a result of the presence of external factors that give the material the desired order [22]. The typical components, structure, and molecular order of LC epoxy monomers are shown in Figure 2.…”
Section: Liquid Crystal Epoxiesmentioning
confidence: 99%