Cellulose dissolution: insights on the contributions of solvent-induced decrystallization and chain disentanglement

Ghasemi, Mohammad; Alexandridis, Paschalis; Tsianou, Marina

doi:10.1007/s10570-016-1145-1

Cited by 54 publications

(49 citation statements)

References 68 publications

(103 reference statements)

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“…Nowadays, ionic liquids are used mainly to dissolve or modify biomass and cellulose (Brandt et al 2013;Ghasemi et al 2017;Borysiak et al 2018), but there is also a growing interest in the use of ionic liquids for the direct production of nanometric cellulose. Swatloski et al (2002) proved that cellulose can be dissolved, without any previous activation of pretreatment, in e.g.…”

Section: Introductionmentioning

confidence: 99%

The influence of the cation type of ionic liquid on the production of nanocrystalline cellulose and mechanical properties of chitosan-based biocomposites

2019

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In this paper three newly synthesized imidazolium ionic liquids with different structures of cations were used for hydrolysis of cellulose. It was found that type of the cation has a great influence on particle size and dispersity of produced cellulosic materials. The use of an ionic liquid with a cation with an aliphatic substituent resulted in filler characterized with wide dispersity range and some particles larger than 2 lm. Introduction of methyl group into imidazolium ring was responsible for production of particles below 350 nm. Such particles were obtained also during hydrolysis of cellulose with ionic liquid containing a benzyl substituent with that difference that in this case particles had definitely narrower dispersity range. Moreover, type of the ionic liquid used affected crystallinity degree of the produced Electronic supplementary material The online version of this article (

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Section: Introductionmentioning

confidence: 99%

The influence of the cation type of ionic liquid on the production of nanocrystalline cellulose and mechanical properties of chitosan-based biocomposites

2019

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“…Ionic liquids (ILs), low-melting salts with combinatorially high chemical diversity, are being considered for applications in various fields [ 23 ], such as biomass processing [ 24 , 25 ], pharmaceuticals [ 26 , 27 ], separations and extraction [ 28 , 29 ], catalysis and batteries [ 23 , 30 ] due to their unique properties and intermolecular interactions [ 23 , 31 ]. Some amphiphiles can self-assemble in neat ionic liquids and in ionic liquid aqueous solutions into ordered structures including micelles and lyotropic liquid crystals [ 31 , 32 , 33 , 34 ].…”

Section: Introductionmentioning

confidence: 99%

Micellization Thermodynamics of Pluronic P123 (EO20PO70EO20) Amphiphilic Block Copolymer in Aqueous Ethylammonium Nitrate (EAN) Solutions

Alexandridis

2017

Polymers

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Poly(ethylene oxide)-poly(propylene oxide)-poly(ethylene oxide) (PEO-PPO-PEO) block copolymers (commercially available as Pluronics or Poloxamers) can self-assemble into various nanostructures in water and its mixtures with polar organic solvents. Ethylammonium nitrate (EAN) is a well-known protic ionic liquid that is expected to affect amphiphile self-assembly due to its ionic nature and hydrogen bonding ability. By proper design of isothermal titration calorimetry (ITC) experiments, we determined the enthalpy and other thermodynamic parameters of Pluronic P123 (EO 20 PO 70 EO 20 ) micellization in aqueous solution at varied EAN concentration. Addition of EAN promoted micellization in a manner similar to increasing temperature, e.g., the addition of 1.75 M EAN lowered the critical micelle concentration (CMC) to the same extent as a temperature increase from 20 to 24 • C. The presence of EAN disrupts the water solvation around the PEO-PPO-PEO molecules through electrostatic interactions and hydrogen bonding, which dehydrate PEO and promote micellization. At EAN concentrations lower than 1 M, the PEO-PPO-PEO micellization enthalpy and entropy increase with EAN concentration, while both decrease above 1 M EAN. Such a change can be attributed to the formation by EAN of semi-ordered nano-domains with water at higher EAN concentrations. Pyrene fluorescence suggests that the polarity of the mixed solvent decreased linearly with EAN addition, whereas the polarity of the micelle core remained unaltered. This work contributes to assessing intermolecular interactions in ionic liquid + polymer solutions, which are relevant to a number of applications, e.g., drug delivery, membrane separations, polymer electrolytes, biomass processing and nanomaterial synthesis.

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“…If the cellulose-solvent interactions are stronger than the intra-and intermolecular interactions between cellulose chains, the crystalline network of cellulose is gradually destroyed increasing the possibility of conformational chain movement of individual chains (Rabideau et al 2013). The weakening interactions between cellulose molecules and the increasing chain movement result in the transformation of solid cellulose fibers to swollen gel-like medium (Ghasemi et al 2017a;Lu et al 2011). With increasing swelling, the individual cellulose chains start to disintegrate from each other and diffuse into the bulk solution (Ghasemi et al 2017a).…”

Section: Introductionmentioning

confidence: 99%

Cellulose dissolution in aqueous NaOH–ZnO: cellulose reactivity and the role of ZnO

et al. 2021

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Cellulose utilization at its full potential often requires its dissolution which is challenging. Aqueous NaOH is the solvent of choice due to the rapid, non-toxic, low cost and environmentally friendly dissolution process. However, there are several limitations, such as the required low temperature and cellulose´s moderately low degree of polymerization and concentration. Moreover, there is a tendency for gelation of semidilute solutions with time and temperature. The addition of ZnO aids cellulose dissolution and hinders self-aggregation in the NaOH solution; however, the exact role of ZnO has remained as an open question. In this work, we studied cellulose dissolution in the aqueous NaOH–ZnO system as well as the reactivity of the dissolved cellulose by oxidation with 4-AcNH-TEMPO+ (TEMPO+). Based on Raman spectroscopic studies and the TEMPO+-reactivities, we propose a new structure for cellulose dissolved in aqueous NaOH–ZnO. Graphic abstract

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Cellulose dissolution: insights on the contributions of solvent-induced decrystallization and chain disentanglement

Cited by 54 publications

References 68 publications

The influence of the cation type of ionic liquid on the production of nanocrystalline cellulose and mechanical properties of chitosan-based biocomposites

The influence of the cation type of ionic liquid on the production of nanocrystalline cellulose and mechanical properties of chitosan-based biocomposites

Micellization Thermodynamics of Pluronic P123 (EO20PO70EO20) Amphiphilic Block Copolymer in Aqueous Ethylammonium Nitrate (EAN) Solutions

Cellulose dissolution in aqueous NaOH–ZnO: cellulose reactivity and the role of ZnO

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