利用食用米纸简便地无模板合成多功能3D细胞碳。

Facile template-free synthesis of multifunctional 3D cellular carbon from edible rice paper.

作者信息

Islam Monsur, Weidler Peter G, Heissler Stefan, Mager Dario, Korvink Jan G

机构信息

Institute for Microstructure Technology, Karlsruhe Institute of Technology Hermann-von-Helmholtz-Platz 1 76344 Eggenstein-Leopoldshafen Germany

Institute for Functional Interfaces, Karlsruhe Institute of Technology Hermann-von-Helmholtz-Platz 1 76344 Eggenstein-Leopoldshafen Germany.

出版信息

RSC Adv. 2020 Apr 27;10(28):16616-16628. doi: 10.1039/d0ra01447h. eCollection 2020 Apr 23.

DOI:10.1039/d0ra01447h

PMID:35498854

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9053079/

Abstract

Edible rice paper wrapper is found to be an interesting precursor of a porous and light-weight carbon material. During pyrolysis, material samples show significant differences in length change, displaying typical 20-25% shrinking in the in-plane directions, and strongly expanding (up to 500%) across their out-of-plane direction. This results in a template-free synthesis of a 3D network of cellular carbon material. The out-of-plane expansion also allows for fabrication of 3D shapes of cellular carbon material from the 2D precursor. The rice paper derived carbon material features a hierarchical porosity, resulting in a specific surface area ranging from 6 m g to 239 m g depending on the synthesis temperature. The carbon material has a density of 0.02-0.03 g cm, and a higher modulus-density ratio than reported for other cellular carbon materials. It is mechanically stiff and exhibits excellent fire-resistant properties.

摘要

可食用米纸被发现是一种有趣的多孔轻质碳材料前驱体。在热解过程中，材料样品在长度变化上表现出显著差异，在平面内方向显示出典型的20 - 25%收缩，而在其平面外方向强烈膨胀（高达500%）。这导致了一种无模板合成的蜂窝状碳材料三维网络。平面外膨胀还使得能够从二维前驱体制备蜂窝状碳材料的三维形状。米纸衍生的碳材料具有分级孔隙率，根据合成温度，比表面积范围为6 m²/g至239 m²/g。该碳材料的密度为0.02 - 0.03 g/cm³，且模量 - 密度比高于其他报道的蜂窝状碳材料。它机械性能坚硬，具有优异的耐火性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2711/9053079/262b58662bbc/d0ra01447h-f1.jpg

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利用食用米纸简便地无模板合成多功能3D细胞碳。

Facile template-free synthesis of multifunctional 3D cellular carbon from edible rice paper.

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