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LIGHTWEIGHT POLYPROPYLENE-CARBON NANOTUBE FOAMS WITH LOW FILLER CONTENT, HIGH PERMITTIVITY AND LOW DIELECTRIC LOSS FOR CHARGE STORAGE APPLICATIONS

机译：轻量级聚丙烯 - 碳纳米管泡沫，具有低填料含量，电介电常数高，电荷储存应用的低介电损耗

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Microcellular polypropylene-multiwalled carbon nanotube (MWCNT) composites with low filler content exhibiting high dielectric permittivity, and low dielectric loss are reported. Nanocomposites were prepared by melt compounding and foamed using supercritical carbon dioxide in a batch process. The introduction of cellular structure decreased the dielectric loss of the nanocomposites up to five orders of magnitude, while the decrease in dielectric permittivity was only 2-4 times. Thus, microcellular composites containing only ~ 0.34 vol.% MWCNT presented a frequency-independent high dielectric permittivity (~ 30) and very low dielectric loss (~ 0.06). The improvement in dielectric loss was explained in terms of the formation of effective nano-capacitors caused by foaming action (biaxial stretching and uniaxial compression) and volume exclusion. The results of this work reveal that high dielectric nanocomposites can be developed using foaming technologies for charge storage applications.

机译：报道了微孔聚丙烯 - 多壁碳纳米管（MWCNT）复合材料，其具有呈现高介电常数的低填料含量，以及低介电损耗。通过熔融配合制备纳米复合材料，并在分批过程中使用超临界二氧化碳发泡。蜂窝结构的引入降低了纳米复合材料的介电损耗，高达五个数量级，而介电介电常数的降低仅为2-4次。因此，仅含有〜0.34体积的微孔复合材料。％MWCNT呈现频率无关的高介电介电常数（〜30），非常低介电损耗（〜0.06）。就通过发泡作用（双轴拉伸和单轴压缩）和体积排除而引起的有效纳米电容器的形成，解释了介电损耗的改善。该工作的结果表明，可以使用用于电荷存储应用的发泡技术开发高介电纳米复合材料。

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《Technical Conference of the Society of Plastics Engineers》|2014年||共5页
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A. Ameli; D. Jahani; M. Nofar;
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4. LIGHTWEIGHT POLYPROPYLENE-CARBON NANOTUBE FOAMS WITH LOW FILLER CONTENT, HIGH PERMITTIVITY AND LOW DIELECTRIC LOSS FOR CHARGE STORAGE APPLICATIONS [C] . A. Ameli, D. Jahani, M. Nofar Technical Conference of the Society of Plastics Engineers . 2014

机译：轻量级聚丙烯 - 碳纳米管泡沫，具有低填料含量，电介电常数高，电荷储存应用的低介电损耗
5. Polymer Nanocomposite Materials with High Dielectric Permittivity and Low Dielectric Loss Properties. [D] . Toor, Anju. 2017

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7. Lightweight porous silica foams with extreme-low dielectric permittivity and loss for future 6G wireless communication technologies [O] . Petra S. Pálvölgyi, Daniel Sebők, Imre Szenti, 2021

机译：轻量级多孔二氧化硅泡沫，具有极低介电介电常数和未来6G无线通信技术的损失

LIGHTWEIGHT POLYPROPYLENE-CARBON NANOTUBE FOAMS WITH LOW FILLER CONTENT, HIGH PERMITTIVITY AND LOW DIELECTRIC LOSS FOR CHARGE STORAGE APPLICATIONS

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