Nanofibrillar carbon from native cellulose

Shigenori Kuga; Dae Young Kim; Yoshiharu Nishiyama; R. Malcolm Brown

doi:10.1080/713738864

Nanofibrillar carbon from native cellulose

Shigenori Kuga
, Dae Young Kim
, Yoshiharu Nishiyama
, R. Malcolm Brown

Department of Convergent Environmental Science

The University of Tokyo
University of Texas at Austin

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Native cellulose samples with high crystallinity were pyrolyzed up to above 2000 C and the resulting carbon structures were examined. The drying method for water-swollen or water-suspended cellulose prior to pryrolysis was found to significantly affect preservation of the large surface areas of the original cellulose; i.e., solvent exchange drying (water-ethanol-t-butyl alcohol) of hydrogels and rapid-freeze drying of water suspended particles by spraying onto a cooled copper plate gave surface area of cellulose of 60-120 m 2 /g, about twice of those by ordinary freeze dyring. The carbons derived from these materials had nearly the same surface area as the starting cellulose and maintained the nanofibrillar morphology.

Original language	English
Pages (from-to)	13-19
Number of pages	7
Journal	Molecular Crystals and Liquid Crystals
Volume	387
Issue number	1
DOIs	https://doi.org/10.1080/713738864
State	Published - 2002

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10.1080/713738864

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title = "Nanofibrillar carbon from native cellulose",

abstract = "Native cellulose samples with high crystallinity were pyrolyzed up to above 2000 C and the resulting carbon structures were examined. The drying method for water-swollen or water-suspended cellulose prior to pryrolysis was found to significantly affect preservation of the large surface areas of the original cellulose; i.e., solvent exchange drying (water-ethanol-t-butyl alcohol) of hydrogels and rapid-freeze drying of water suspended particles by spraying onto a cooled copper plate gave surface area of cellulose of 60-120 m 2 /g, about twice of those by ordinary freeze dyring. The carbons derived from these materials had nearly the same surface area as the starting cellulose and maintained the nanofibrillar morphology.",

author = "Shigenori Kuga and Kim, \{Dae Young\} and Yoshiharu Nishiyama and Brown, \{R. Malcolm\}",

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year = "2002",

doi = "10.1080/713738864",

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AU - Kuga, Shigenori

AU - Kim, Dae Young

AU - Nishiyama, Yoshiharu

AU - Brown, R. Malcolm

PY - 2002

Y1 - 2002

N2 - Native cellulose samples with high crystallinity were pyrolyzed up to above 2000 C and the resulting carbon structures were examined. The drying method for water-swollen or water-suspended cellulose prior to pryrolysis was found to significantly affect preservation of the large surface areas of the original cellulose; i.e., solvent exchange drying (water-ethanol-t-butyl alcohol) of hydrogels and rapid-freeze drying of water suspended particles by spraying onto a cooled copper plate gave surface area of cellulose of 60-120 m 2 /g, about twice of those by ordinary freeze dyring. The carbons derived from these materials had nearly the same surface area as the starting cellulose and maintained the nanofibrillar morphology.

AB - Native cellulose samples with high crystallinity were pyrolyzed up to above 2000 C and the resulting carbon structures were examined. The drying method for water-swollen or water-suspended cellulose prior to pryrolysis was found to significantly affect preservation of the large surface areas of the original cellulose; i.e., solvent exchange drying (water-ethanol-t-butyl alcohol) of hydrogels and rapid-freeze drying of water suspended particles by spraying onto a cooled copper plate gave surface area of cellulose of 60-120 m 2 /g, about twice of those by ordinary freeze dyring. The carbons derived from these materials had nearly the same surface area as the starting cellulose and maintained the nanofibrillar morphology.

UR - https://www.scopus.com/pages/publications/34547283667

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DO - 10.1080/713738864

M3 - Article

AN - SCOPUS:34547283667

SN - 1542-1406

VL - 387

SP - 13

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JO - Molecular Crystals and Liquid Crystals

JF - Molecular Crystals and Liquid Crystals

IS - 1

ER -

Nanofibrillar carbon from native cellulose

Abstract

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