[Macromolecules] Ordered Alignment of Liquid Crystalline Graphene Fluoride for Significantly Enhancing Thermal Conductivities of Liquid Crystalline Polyimide Composite Films
作者:Kunpeng Ruan and Junwei Gu*
關鍵字:Thermally conductive composites
論文來源:期刊
具體來源:Macromolecules
發表時間:2022年
Low thermal conductivity coefficient (λ) of polyimide (PI) films are limiting their application in high-power electronic equipments, and the disordered alignment of fillers discourage efficient improvement of λ for PI-based composite films. Herein, polyethylene glycol trimethylnonyl ether is used to perform liquid crystalline modification on graphene fluoride (LC-GeF) to achieve ordered alignment. Intrinsically thermally conductive liquid crystalline PI (LC-PI) matrix is utilized to fabricate thermally conductive LC-GeF/LC-PI composite films. In-plane λ (λ∥) and through-plane λ (λ⊥) of 15 wt% LC-GeF/LC-PI composite films reach 4.21 and 0.63 W/(m·K), 446.8% and 320.0% higher than λ∥ (0.77 W/(m·K)) and λ⊥ (0.15 W/(m·K)) of normal PI films, 99.5% and 96.9% higher than λ∥ (2.11 W/(m·K)) and λ⊥ (0.32 W/(m·K)) of LC-PI films, also higher than 15 wt% GeF/LC-PI composite films. Additionally, LC-GeF/LC-PI composite films possess more excellent insulating, mechanical and thermal properties than GeF/LC-PI composite films.
聚酰亞胺(PI)膜較低的本征導熱系數(λ)限制了其在高功率電子設備中的應用。常規PI基導熱復合膜中的導熱填料往往無序排列,阻礙了λ的高效提升。本文采用聚乙二醇三甲基壬基醚(TMN)對“溶劑插層-超聲剝離”法制備的氟化石墨烯(GeF)進行液晶化改性(LC-GeF),再與本征導熱液晶PI(LC-PI)基體復合制備LC-GeF/LC-PI導熱復合膜。當LC-GeF導熱填料的質量分數為15 wt%時,LC-GeF/LC-PI導熱復合膜室溫下的面內λ(λ∥)和面間λ(λ⊥)分別達到4.21 W/(m·K)和0.63 W/(m·K),較普通PI膜的λ∥(0.77 W/(m·K))和λ⊥(0.15 W/(m·K))提升了446.8%和320.0%,較本征導熱LC-PI膜的λ∥(2.11 W/(m·K))和λ⊥(0.32 W/(m·K))提升了99.5%和96.9%,也高于相同填料用量下GeF/LC-PI導熱復合膜。此外,相同填料用量下,LC-GeF/LC-PI復合膜還具有較GeF/LC-PI復合膜更加優異的絕緣性能、力學性能和熱性能。