Biomordanting willow bark dye on cellulosic materials

Tia Lohtander; Suvi Arola; Päivi Laaksonen

doi:10.1111/cote.12442

Biomordanting willow bark dye on cellulosic materials

Tia Lohtander
, Suvi Arola
, Päivi Laaksonen^*

^*Corresponding author for this work

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

26 Citations (Scopus)

199 Downloads (Pure)

Abstract

A semi-quantitative study of willow bark dye adsorption on two different cellulose materials using biomordants was carried out. The studied celluloses were microcrystalline cellulose (MCC) AaltoCell and regenerated Ioncell-F (IC) fibres. The dye was a hot water extract of willow bark and the adsorption to cellulose was carried out using carboxylic acid-containing biomordants, namely, oxalic acid, citric acid and tannic acid. Alum was employed as the reference mordant. A semi-quantitative estimation of the dye uptake was conducted using high-performance liquid chromatography equipped with a diode array detector and also by visual inspection, as well as an evaluation of the coloration using CIELab parameters. The mechanism of the dye adsorption on the cellulose surfaces was studied via Fourier Transform–infrared spectroscopy. According to the results, MCC had a higher affinity for polyphenolic dye than the regenerated cellulose fibres. Dye uptake on MCC was 50%-80% and 44%-57% on IC. For MCC, the biomordants improved the dye uptake more effectively than the control mordant, alum, whereas for IC the biomordants were less effective than alum.

Original language	English
Pages (from-to)	3-14
Number of pages	12
Journal	Coloration Technology
Volume	136
Issue number	1
DOIs	https://doi.org/10.1111/cote.12442
Publication status	Published - 1 Feb 2020
MoE publication type	A1 Journal article-refereed

Funding

This work was supported by Aalto University, Academy of Finland projects #311608 and #327209 and Center of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials (HYBER #307332). We are grateful for the support by the FinnCERES Materials Bioeconomy Ecosystem. We thank J. Dou for providing willow bark and guidance in hot water extraction and H. Meriö‐Talvio for her excellence and help in LC‐MS analytics.

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10.1111/cote.12442Licence: CC BY

cote.12442Final published version, 1.45 MBLicence: CC BY

Cite this

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title = "Biomordanting willow bark dye on cellulosic materials",

abstract = "A semi-quantitative study of willow bark dye adsorption on two different cellulose materials using biomordants was carried out. The studied celluloses were microcrystalline cellulose (MCC) AaltoCell and regenerated Ioncell-F (IC) fibres. The dye was a hot water extract of willow bark and the adsorption to cellulose was carried out using carboxylic acid-containing biomordants, namely, oxalic acid, citric acid and tannic acid. Alum was employed as the reference mordant. A semi-quantitative estimation of the dye uptake was conducted using high-performance liquid chromatography equipped with a diode array detector and also by visual inspection, as well as an evaluation of the coloration using CIELab parameters. The mechanism of the dye adsorption on the cellulose surfaces was studied via Fourier Transform–infrared spectroscopy. According to the results, MCC had a higher affinity for polyphenolic dye than the regenerated cellulose fibres. Dye uptake on MCC was 50\%-80\% and 44\%-57\% on IC. For MCC, the biomordants improved the dye uptake more effectively than the control mordant, alum, whereas for IC the biomordants were less effective than alum.",

author = "Tia Lohtander and Suvi Arola and P{\"a}ivi Laaksonen",

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AU - Laaksonen, Päivi

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N2 - A semi-quantitative study of willow bark dye adsorption on two different cellulose materials using biomordants was carried out. The studied celluloses were microcrystalline cellulose (MCC) AaltoCell and regenerated Ioncell-F (IC) fibres. The dye was a hot water extract of willow bark and the adsorption to cellulose was carried out using carboxylic acid-containing biomordants, namely, oxalic acid, citric acid and tannic acid. Alum was employed as the reference mordant. A semi-quantitative estimation of the dye uptake was conducted using high-performance liquid chromatography equipped with a diode array detector and also by visual inspection, as well as an evaluation of the coloration using CIELab parameters. The mechanism of the dye adsorption on the cellulose surfaces was studied via Fourier Transform–infrared spectroscopy. According to the results, MCC had a higher affinity for polyphenolic dye than the regenerated cellulose fibres. Dye uptake on MCC was 50%-80% and 44%-57% on IC. For MCC, the biomordants improved the dye uptake more effectively than the control mordant, alum, whereas for IC the biomordants were less effective than alum.

AB - A semi-quantitative study of willow bark dye adsorption on two different cellulose materials using biomordants was carried out. The studied celluloses were microcrystalline cellulose (MCC) AaltoCell and regenerated Ioncell-F (IC) fibres. The dye was a hot water extract of willow bark and the adsorption to cellulose was carried out using carboxylic acid-containing biomordants, namely, oxalic acid, citric acid and tannic acid. Alum was employed as the reference mordant. A semi-quantitative estimation of the dye uptake was conducted using high-performance liquid chromatography equipped with a diode array detector and also by visual inspection, as well as an evaluation of the coloration using CIELab parameters. The mechanism of the dye adsorption on the cellulose surfaces was studied via Fourier Transform–infrared spectroscopy. According to the results, MCC had a higher affinity for polyphenolic dye than the regenerated cellulose fibres. Dye uptake on MCC was 50%-80% and 44%-57% on IC. For MCC, the biomordants improved the dye uptake more effectively than the control mordant, alum, whereas for IC the biomordants were less effective than alum.

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JO - Coloration Technology

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Biomordanting willow bark dye on cellulosic materials

Abstract

Funding

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FinnCERES: Competence Center for the Materials Bioeconomy: A Flagship for our Sustainable Future

Biorefining of Novel Cellulosics from Forest Fibers

the Academy of Finland's Centre of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials research (2014-2019), HYBER

Bioeconomy Research Infrastructure

Cite this

Biomordanting willow bark dye on cellulosic materials

Abstract

Funding

Access to Document

Other files and links

Fingerprint

Projects

FinnCERES: Competence Center for the Materials Bioeconomy: A Flagship for our Sustainable Future

Biorefining of Novel Cellulosics from Forest Fibers

the Academy of Finland's Centre of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials research (2014-2019), HYBER

Equipment

Bioeconomy Research Infrastructure

Cite this