[Science Bulletin] High-strength super-hydrophobic double-layered PBO nanofiber-polytetrafluoroethylene nanocomposite paper for high-performance wave-transparent applications
作者:Lin Tang, Yusheng Tang, Junliang Zhang, Yuhan Lin, Jie Kong, Kun Zhou* and Junwei Gu*
關鍵字:Polymer matrix wave-transparent composites
論文來源:期刊
具體來源:Science Bulletin
發表時間:2022年
Lin Tang, Yusheng Tang, Junliang Zhang, Yuhan Lin, Jie Kong, Kun Zhou* and Junwei Gu*. High-strength super-hydrophobic double-layered PBO nanofiber-polytetrafluoroethylene nanocomposite paper for high-performance wave-transparent applications. Science Bulletin, 2022, 67(21): 2196-2207. 2021IF=20.577.(1區綜合類Top期刊,中國科技期刊卓越行動計劃-領軍類期刊項目,2021中國最具國際影響力學術期刊)
https://doi.org/10.1016/j.scib.2022.10.011
Abstract
Poly(p-phenylene-2, 6-benzobisoxazole) nanofiber (PNF) paper is facing unprecedented challenges in enhancing the interaction between the PNFs and improving its hydrophobicity. In this work, a sol–gel film transformation approach was developed to fabricate high-strength PNF paper. Iron ions formed coordination bonds between PNFs to obtain a preforming three-dimensional, interconnective nanofiber network. Subsequently, polytetrafluoroethylene (PTFE) particles were sprayed onto the surface of the paper, followed by thermal treatment to obtain double-layered PTFE-P/PNF nanocomposite paper. The nanocomposite paper presents incredible tensile strength (271.6 MPa, increased by 52.9%), folding endurance, super-hydrophobicity, and self-cleaning performances. Moreover, it exhibits low dielectric constant (2.06) and dielectric loss tangent (0.0133) values. According to the wave-transparent model for a double-layered dielectric established by Maxwell’s equations, the wave-transparent coefficients of electromagnetic waves incident from both sides of the paper are 97.6% (PNF side) and 96.0% (PTFE/P(S-co-BCB-co-MMA) side), respectively. The PTFE-P/PNF nanocomposite paper possesses great potential in the fields of wave-transparent applications.
聚對苯撐苯并二噁唑(PBO)纖維衍生的PBO納米纖維(PNFs)紙在航空/航天、交通運輸和5G通訊等領域具有廣闊的應用前景。如何改善PNFs間的相互作用力以及提高PNFs紙的疏水性能,仍是該領域的一個難點。本文通過Fe3+與PNFs表面N原子的配位作用在PNFs間構建金屬配位鍵,并通過溶膠-凝膠-薄膜轉化法制備PNFs紙。進而在PNFs紙表面噴涂聚四氟乙烯(PTFE)顆粒/P(S-co-BCB-co-MMA)混合溶液,通過熱交聯制備雙層結構PTFE-P/PNFs納米復合紙。基于金屬配位鍵和氫鍵的雙重作用,PTFE-P/PNFs納米復合紙具有優異的抗拉強度(271.6 MPa,提高52.9%)、耐折性、超疏水性和自清潔性能。此外,它具有較低的介電常數(2.06)和介電損耗正切(0.0133)值。根據麥克斯韋方程組建立的雙層介質透波模型,電磁波從PTFE-P/PNFs納米復合紙的兩側入射的透過率分別為97.6%(PNF側)和96.0%(PTFE/P(S-co-BCB-co-MMA)側)。本工作研制的高強度、超疏水聚對苯撐苯并二噁唑納米透波復合紙有望在航空/航天、交通運輸和5G通訊的雷達天線罩、電磁窗等領域獲得廣泛的應用。