The undesirable acetylation of cellulose by the acetate ion of 1-ethyl-3-methylimidazolium acetate

Karatzos, Sergios; Edye, L. A.; Wellard, R. Mark

doi:10.1007/s10570-011-9621-0

Cited by 42 publications

(43 citation statements)

References 11 publications

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“…Surprisingly, a sharp vibrational peak at 1741 cm −1 characteristic of C O bonds appears again in WR-2 (90% cellulose), suggesting acetylation. Cellulose (and lignin) acetylation as a side reaction using [EMIM][OAc] has been previously reported (Ç etinkol et al, 2010;Hauru et al, 2013;Karatzos, Edye, & Wellard, 2012;King, Xie, Fiskari, & Kilpelaeinen, 2014;Köhler et al, 2007). This structural change will be revisited in the next section.…”

Section: Effect Of [Emim][oac] On the Composition Of Wood: Pulping Efmentioning

confidence: 88%

“…Likewise, treating pure cellulose with [EMIM][OAc] results in acetylation (Ç etinkol et al, 2010;Karatzos et al, 2012;Köhler et al, 2007). Cellulose acetylation by [EMIM][OAc] is temperature dependent: at low temperature (80 • C) it is only revealed when a catalyst is used (Köhler et al, 2007); at higher temperature (e.g., 185 • C) it occurs also in the absence of a catalyst (Karatzos et al, 2012;Li et al, 2011). In whole wood, transacetylation from xylan to lignin has also been proposed (King et al, 2014).…”

Section: Evidence Of Acetylation Of Cellulose During [Emim][oac] Treamentioning

confidence: 99%

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Ionic liquid-mediated technology to produce cellulose nanocrystals directly from wood

Abushammala

Krossing

Laborie

2015

Carbohydrate Polymers

123

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Section: Effect Of [Emim][oac] On the Composition Of Wood: Pulping Efmentioning

confidence: 88%

Section: Evidence Of Acetylation Of Cellulose During [Emim][oac] Treamentioning

confidence: 99%

Ionic liquid-mediated technology to produce cellulose nanocrystals directly from wood

Abushammala

Krossing

Laborie

2015

Carbohydrate Polymers

123

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“…[EMIM]OAc is known to deacetylate hemicelluloses and acetylate lignin ( Kilpel ä inen et al 2007 ;Ç etinkol et al 2010 ;Li et al 2011 ;Karatzos et al 2012 ), and such reactions certainly contribute to swelling in [EMIM] OAc followed by dissolution, disintegration, and derivatization of wood. Such effects are not as evident in the case of [BMIM]Ace.…”

Section: The Swelling Behavior Of Norway Spruce In Ilsmentioning

confidence: 99%

Swelling, viscoelastic, and anatomical studies on ionic liquid-swollen Norway spruce as a screening tool toward ionosolv pulping

Abushammala¹,

Pontes²,

Gomes

et al. 2015

Holzforschung

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To screen ionic liquid (IL) candidates for wood ionosolv pulping, swelling and viscoelastic studies on Norway spruce wood treated with ionic liquids have been conducted. In particular, the temperature dependency and kinetics of swelling in 1-butyl-3-methylimidazolium acesulfamate ([BMIM]Ace) and in 1-ethyl-3-methylimidazolium acetate ([EMIM]OAc) were in focus. The kinetics of volumetric swelling in [BMIM]Ace yielded an E a of 54 kJ.mol -1 compared to 23 kJ.mol -1 in [EMIM]OAc. The viscoelastic behavior of IL-swollen wood was studied by dynamic mechanical analysis, and the lowest in situ glass transition temperature ( T g ) of lignin was ∼ 58 ° C and ∼ 65 ° C in [BMIM]Ace and in [EMIM]OAc, respectively. These T g values are lower than that found in water. Higher T g was calculated by the Gordon-Taylor equation, which means that swelling is not only due to the plasticizing effect of the ILs. SEM images showed that [EMIM]OAc has a stronger plasticizing effect than [BMIM]Ace. Overall, [EMIM]OAc is the most efficient agent for wood swelling, softening, and disintegration and, thus, it is the most promising candidate for ionosolv pulping.

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“…Precipitates formed upon ethanol addition to recovered solv e n t m i x t u r e s o f 2 [OAc] has been reported to acetylate cellulose and may acetylate other biomass components as well, resulting in part of the IL precipitating with biomass fractions [47]. Typically, with IL pretreatment of biomass, addition of an anti-solvent such as ethanol creates a solvation shell around the IL's ions, so that they do not precipitate out with the biomass components.…”

Section: Biomass Components Recovered From [C2mim][oac] With Ethanol mentioning

confidence: 99%

Loblolly pine pretreatment by ionic liquid-glycerol mixtures

Lynam

Coronella

2015

Biomass Conv. Bioref.

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Glycerol was used as a cosolvent with the two ionic l i q u i d s 1 -e t h y l -3 -m e t h y l i m i d a z o l i u m f o r m a t e ([C2mim][O2CH]) and 1-ethyl-3-methylimidazolium acetate ([C2mim][OAc]) to pretreat loblolly pine at 140°C. Enzymatic hydrolysis was then performed on raw and pretreated pines to establish pretreatment efficacy. With pretreatment, glucose yield from enzymatic hydrolysis was improved from 2 % for raw pine up to 43 %, while yields of mannose/xylose combined improved from 4 % up to 77 %. Pine pretreated with a 50 % [C2mim][O2CH]-50 % glycerol mixture exhibited a pulp-like structure, likely formed from removal of the lignin that binds cell walls together. Using this 50 % mixture of [C2mim][O2CH] and glycerol for pretreatment gave a slightly lower glucose yield than a 75 % mixture of [C2mim][O2CH] and glycerol but gave a mannose/xylose yield twice as high. Klason lignin and Fourier transform infrared spectroscopy (FTIR) analysis indicated that [C2mim][O2CH]-glycerol pretreatment preferentially dissolves lignin. FTIR analysis also suggested increased amorphous cellulose content with this pretreatment. Using the anti-solvent ethanol, a lignin-rich substance was precipitated from the solvent mixtures.

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The undesirable acetylation of cellulose by the acetate ion of 1-ethyl-3-methylimidazolium acetate

Cited by 42 publications

References 11 publications

Ionic liquid-mediated technology to produce cellulose nanocrystals directly from wood

Ionic liquid-mediated technology to produce cellulose nanocrystals directly from wood

Swelling, viscoelastic, and anatomical studies on ionic liquid-swollen Norway spruce as a screening tool toward ionosolv pulping

Loblolly pine pretreatment by ionic liquid-glycerol mixtures

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