源自木质素的导电亚微米级碳颗粒：纳米结构的阐释及其作为纤维素纳米纸填料的应用

Electrically-Conductive Sub-Micron Carbon Particles from Lignin: Elucidation of Nanostructure and Use as Filler in Cellulose Nanopapers.

作者信息

Köhnke Janea, Rennhofer Harald, Unterweger Christoph, Gierlinger Notburga, Keckes Jozef, Zollfrank Cordt, Rojas Orlando J, Gindl-Altmutter Wolfgang

机构信息

Department of Materials Science and Process Engineering, BOKU-University of Natural Resources and Life Science, Vienna, 3430 Tulln, Austria.

Wood K plus-Kompetenzzentrum Holz GmbH, 4040 Linz, Austria.

出版信息

Nanomaterials (Basel). 2018 Dec 15;8(12):1055. doi: 10.3390/nano8121055.

DOI:10.3390/nano8121055

PMID:30558292

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6316020/

Abstract

Carbon particles were produced from kraft lignin through carbonization of perfectly spherical, sub-micron beads obtained by aerosol flow. The structure of the resulting carbon particles was elucidated and compared to that derived from commercially available technical lignin powder, which is undefined in geometry. In addition to the smaller diameters of the lignin beads (<1 µm) compared to those of the lignin powder (100 µm), the former displayed a slightly higher structural order as revealed by X-ray diffraction and Raman spectroscopy. With regard to potential application in composite structures, the sub-micron carbon beads were clearly advantageous as a filler of cellulose nanopapers, which displayed better mechanical performance but with limited electrical conductivity. Compression sensing was achieved for this nanocomposite system.

摘要

通过气流获得的完美球形亚微米珠粒对硫酸盐木质素进行碳化，从而制备出碳颗粒。对所得碳颗粒的结构进行了阐释，并与由几何形状不明确的市售工业木质素粉末衍生的碳颗粒结构进行了比较。与木质素粉末（100微米）相比，木质素珠粒的直径更小（<1微米），此外，如X射线衍射和拉曼光谱所示，前者显示出稍高的结构有序度。关于在复合结构中的潜在应用，亚微米碳珠作为纤维素纳米纸的填料显然具有优势，纤维素纳米纸表现出更好的机械性能，但导电率有限。该纳米复合系统实现了压缩传感。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7403/6316020/ec33b405701b/nanomaterials-08-01055-g001.jpg

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源自木质素的导电亚微米级碳颗粒：纳米结构的阐释及其作为纤维素纳米纸填料的应用

Electrically-Conductive Sub-Micron Carbon Particles from Lignin: Elucidation of Nanostructure and Use as Filler in Cellulose Nanopapers.

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