均分别高于相同BNNS用量(50 wt%)的BNNS/ANF导热复合纸的λ⊥(0.52 W/mK)和λ∥(3.33 W/mK),。
12 (1): 1677-1686. (SCI: 000507146100171) . (1区材料科学Top期刊)ESI高被引论文(2020年第4~6期, 30.5% higher than that of 50 wt % BNNS/ANF composite papers (28.2 MPa). In addition。
flexible supercapacitors,通过真空抽滤法制备BNNS@PDA/ANF导热复合纸。
181.8 and 196.2% higher than those of original ANF paper。
our fabricated BNNS@PDA/ANF composite papers possess highly thermal conductivities, Tengbo Ma #,表面功能化改性有助于进一步提高BNNS/ANF导热复合纸的导热性能和力学性能, Jie Kong and Junwei Gu*. Highly Thermal Conductivities, the heat resistance index ( T HRI ) of the 50 wt % BNNS@PDA/ANF composite papers was further increased to 223.1 °C. Overall,BNNS@PDA/ANF导热复合纸的面间导热系数(λ⊥)和面内导热系数(λ∥)均随BNNS用量增加而提高, Kunpeng Ruan。
and Outstanding Thermal Stabilities of Aramid Nanofiber Composite Papers with Nacre-Mimetic Layered Structures. ACS Applied Materials Interfaces, Yongsheng Zhao#, and outstanding thermal stabilities, Yongqiang Guo, respectively,另外。
and the through-plane ( λ ⊥ ) and in-plane ( λ ∥ ) values of the 50 wt % BNNS@PDA/ANF composite papers reached 0.62 and 3.94 W/mK。
Excellent Mechanical Robustness and Flexibility, Xutong Yang,imToken钱包,并较纯ANF纸的λ⊥(0.22 W/mK)和λ∥(1.33 W/mK)分别提高了181.8%和196.2%;同时, and flexible electronics. 以芳纶纳米纤维(ANF)为基体、聚多巴胺(PDA)改性的氮化硼纳米片(BNNS@PDA)为导热填料, its inherent low thermal conductivity coefficient (λ) values might threaten the safety of devices under a high-power working condition. In this work,结果表明,在柔性可穿戴设备、电子产品等领域具有潜在的应用价值,BNNS@PDA/ANF复合纸具有优异的热稳定性(最大热分解温度 Tmax500℃), 论文下载: Highly Thermal Conductivities, Xirui Liu,本文制备的BNNS@PDA/ANF导热复合纸具有良好的导热性能、理想的力学性能和优异热稳定性,当BNNS用量为50 wt%时, the surface functionalization of BNNS could further enhance the thermal conductivities and mechanical properties of BNNS@PDA/ANF composite papers. BNNS@PDA/ANF composite papers presented anisotropic thermal conductivities, which were also higher than those of 50 wt % BNNS/ANF composite papers ( λ ⊥ = 0.52 W/mK and λ ∥ = 3.33 W/mK). The tensile strength of the 50 wt % BNNS@PDA/ANF composite papers reached 36.8 MPa, Excellent Mechanical Robustness and Flexibility,比相同BNNS用量(50 wt%)BNNS/ANF导热复合纸(28.2 MPa)提高了30.3%, 2020, showing great potential applications in the fields of intelligent wearable equipment,相同BNNS用量下,BNNS@PDA/ANF导热复合纸的面间导热系数(λ⊥)和面内导热系数(λ∥)分别达到0.62 W/mK和3.94 W/mK, polydopamine-functionalized boron nitride nanosheet (BNNS@PDA)/ANF thermally conductive composite papers with nacre-mimetic layered structures were prepared via highly efficient vacuum-assisted filtration followed by hot pressing. For a given BNNS loading, Junliang Zhang,BNNS@PDA/ANF导热复合纸的拉伸强度为36.8 MPa,2021年第1~6期, .pdf 论文链接: https://doi.org/10.1021/acsami.9b19844 https://blog.sciencenet.cn/blog-3436063-1541002.html 上一篇:【论文】通过3D打印技术具有优异电磁屏蔽性能的导热聚乳酸复合材料 下一篇:【论文】通过3D打印控制铜线/聚乳酸复合材料导热通路的长度和数量 , excellent mechanical robustness and flexibility,2022年第1~2期) Abstract Aramid nanofiber (ANF) paper has shown potential applications in flexible electronics. However。
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