三聚氰胺泡沫和纤维素纳米纤维共同介导石墨烯纳米片的组装以构建用于先进相变材料的三维网络。

Melamine foam and cellulose nanofiber co-mediated assembly of graphene nanoplatelets to construct three-dimensional networks towards advanced phase change materials.

作者信息

Xue Fei, Jin Xin-Zheng, Wang Wen-Yan, Qi Xiao-Dong, Yang Jing-Hui, Wang Yong

机构信息

School of Materials Science & Engineering, Key Laboratory of Advanced Technologies of Materials (Ministry of Education), Southwest Jiaotong University, Chengdu, 610031, China.

出版信息

Nanoscale. 2020 Feb 14;12(6):4005-4017. doi: 10.1039/c9nr10696k. Epub 2020 Feb 4.

DOI:10.1039/c9nr10696k

PMID:32016265

Abstract

Organic phase change materials (OPCMs) play a great role in energy management owing to their large phase change enthalpy, but their intrinsic low thermal conductivity (TC) and bad encapsulation severely restrict their applications. To overcome these problems, we developed a novel but feasible method to fabricate a graphene nanoplatelet (GNP) aerogel with compact and oriented stacking in-plane walls and many through-plane bridges via melamine foam (MF) and cellulose nanofiber (CNF) co-mediated assembly of GNPs. After impregnating paraffin wax (PW), the composite PCMs exhibit a high TC of 1.42 W m K at only a GNP content of 4.1 wt%, increasing by 407% compared with pure PW, and simultaneously nearly no reduction of the phase change enthalpy of PW. Meanwhile, this kind of composite PCM can not only show excellent light-to-thermal and electric-to-thermal transition ability, but also be applied in delay switch devices with satisfactory results.

摘要

有机相变材料（OPCMs）因其较大的相变焓在能量管理中发挥着重要作用，但其固有的低导热率（TC）和不良的封装严重限制了它们的应用。为了克服这些问题，我们开发了一种新颖且可行的方法，通过三聚氰胺泡沫（MF）和纤维素纳米纤维（CNF）共同介导的氧化石墨烯纳米片（GNP）组装，制备出一种在平面内具有紧密且定向堆积壁以及许多贯穿平面桥的GNP气凝胶。在浸渍石蜡（PW）后，复合相变材料在仅4.1 wt%的GNP含量下就展现出1.42 W m⁻¹ K⁻¹的高导热率，与纯PW相比提高了407%，同时PW的相变焓几乎没有降低。此外，这种复合相变材料不仅能表现出优异的光热和电热转换能力，还能应用于延迟开关器件并取得令人满意的效果。

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三聚氰胺泡沫和纤维素纳米纤维共同介导石墨烯纳米片的组装以构建用于先进相变材料的三维网络。

Melamine foam and cellulose nanofiber co-mediated assembly of graphene nanoplatelets to construct three-dimensional networks towards advanced phase change materials.

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