Solvent-Free Dyeing of Solid Wood in Water-Saturated Supercritical Carbon Dioxide

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abstract

Coloring of massive wood is still a major challenge in high-end wood processing, which aims to provide solid wood at a broad range of colors to furniture manufacturers. Here we report that water-saturation of supercritical carbon dioxide (scCO(2))-a promising green dyeing medium-greatly improves solid wood dyeing. This has been demonstrated for disperse blue 134 and three European hardwood species, namely, birch (Betula pendula), beech (Fagus sylvatica), and oak (Quercus robur). Variation of dyeing temperature (45-100 degrees C) and pressure (10.0-30.0 MPa) revealed that 20.0 MPa and 100 degrees C pose an optimal parameter combination. Coloration of the interior of small wood cubes (2 cm(3)), expressed as Delta E color change within the CIELAB color space, was here 40.6 (+/- 1.2) for birch, 28.7 (+/- 3.1) for beech, and 16.3 (+/- 4.4) for oak. Since these values are significantly higher compared to water-free scCO(2), it can be concluded that water-even if poorly soluble in scCO(2), was effectively transported throughout the semiporous wood matrices. This causes the latter to swell, which efficiently improves the accessibility of individual cell wall constituents by dyeing reagents, for example. Three-point bending tests indicate that water-saturated scCO(2) dyeing effectuates some morphological or chemical alterations to the wood structure, since a moderate loss of both flexural strength and stiffness (15-20%) was found. Nevertheless, the proposed approach which can be adapted to a broad variety of biobased materials represents a green, sustainable, and highly versatile process, as it is free of organic solvents and waste products.

keywords

REACTIVE DISPERSE DYE; COTTON; PLASTICIZATION; MICROEMULSIONS; ACETYLATION; ENVIRONMENT; CO2

subject category

Chemistry; Science & Technology - Other Topics; Engineering

authors

Jaxel, J; Liebner, FW; Hansmann, C

our authors

foto Wolfgang Falk Liebner

Wolfgang Falk Liebner

Invited Chair of Biorefinery and Bioeconomy

Groups

4 - Biorefineries, Biobased Materials and Recycling

acknowledgements

Authors are grateful to Peter Bliem and Prof. Johannes Konnerth for technical help and fruitful discussions. The financial support by FFG -The Austrian Research Funding Agency through the BRIDGE project Dyeing of massive wood mediated by supercritical CO2 (2016-2019, no. 853234) is thankfully acknowledged.

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Publication Details

type
Journal Article
year
2020
journal
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
volume
8
publisher
AMER CHEMICAL SOC
issn
2168-0485
issue
14
digital object identifier
10.1021/acssuschemeng.0c01273
web of science article identifier
WOS:000526375000005

Journal Metrics (JCR 2019)

Journal Impact Factor
7.632
Journal Impact Factor (5 yrs)
7.741
category normalized journal percentile
90.792

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