Plasticizing Effect of Choline Chloride/Urea Eutectic-Based Ionic Liquid on Physicochemical Properties of Agarose Films

Shamsuri, Ahmad Adlie; Daik, Rusli

doi:10.15376/biores.7.4.4760-4775

Cited by 43 publications

(38 citation statements)

References 25 publications

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“…The stretching vibrations of alcohol in both 1, 4-butanediol and choline chloride, ChCl shifted to lower frequencies from 3340 cm -1 in ChCl (Park et al 2013) to 3294 cm -1 in 1,4-butanediol DES, which was prepared by mixing two components. It is known that the existence of the main hydrogen bonding in DES was due to the bonding between Cl -ion in ChCl and hydrogen donor molecule (Shamsuri & Daik 2012). Nevertheless, the shift to lower frequencies of hydroxyl stretching vibration could be attributed to the potential hydrogen bond formation through hydroxyl group in ChCl.…”

Section: Structural Elucidation Of Deep Eutectic Solvent (Des) and Inmentioning

confidence: 95%

Interaction Study of Binary Solvent Systems Ionic Liquid and Deep Eutectic Solvent with Rotenone

Othman

Koketsu

Karim³

et al. 2018

JSM

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Section: Structural Elucidation Of Deep Eutectic Solvent (Des) and Inmentioning

confidence: 95%

Interaction Study of Binary Solvent Systems Ionic Liquid and Deep Eutectic Solvent with Rotenone

Othman

Koketsu

Karim³

et al. 2018

JSM

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“…The broad bands with strong intensity in the region of 3416 to 3400 cm -1 were assigned to the O-H bond stretching vibration of alcohol groups and absorbed water. The peak at 1638 cm -1 in the FTIR of METMA was corresponded to C=C bond stretching of alkene group, whereas the band with medium intensity around 1636 cm -1 was attributed tightly absorbed water by MCC-BiB [10]. The absence of C=C peak in the FTIR of CiB-g-METMA indicated that the METMA monomer had undergone polymerization reaction.…”

Section: Figure 2 (A)mentioning

confidence: 96%

Cationic quaternization of cellulose with methacryloyloxy ethyl trimethyl ammonium chloride via ATRP method

Supeno¹,

Daik²,

El‐Sheikh³

2014

AIP Conference Proceedings

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Abstract. The synthesis of a cationic cellulose copolymer from cellulose macro-initiator (MCC-BiB) and quaternary compound monomer (METMA) via atom transfer radical polymerization (ATRP) was studied. By using dimethylformamide (DMF), the optimum condition for successful synthesis was at the mole ratio of MCC-BIB: Catalyst:METMA = 1:1:26. The highest copolymer recovery was 93.2 % for 6 h and at 40 o C. The copolymer was insoluble in weak polar solvents such as THF and DMF but soluble in methanol and water. The chemistry of cellulose copolymer was confirmed by the FTIR and TGA in which the METMA monomer was used as a reference. The absence of C=C bond in the CiB-g-METMA spectrum indicated that graft copolymerization occurred.

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“…Besides composite preparation, it is also possible to confine ILs as gel matrices by cooling biopolymer-IL solutions at ambient temperatures to form "ionogels" which are shown to be smart polymeric conducting materials that combine the chemical versatility of an ionic liquid with the morphological versatility of a biopolymer. 30,31,[38][39][40][41][42][43][44][45][46][47] Such ionogels have been found to be suitable for an array of electrochemical applications. 38,46 Therefore, in addition to the preparation of AG-CH composites, we have attempted to prepare AG-CH-IL composite ionogels using a high solvating ability IL, 3 ) with a purity of 98% mass fraction was purchased from SD FINE CHEM, Mumbai.…”

Section: Introductionmentioning

confidence: 99%

Facile preparation of agarose–chitosan hybrid materials and nanocomposite ionogels using an ionic liquid via dissolution, regeneration and sol–gel transition

2014

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We report simultaneous dissolution of agarose (AG) and chitosan (CH) in varying proportions in an ionic liquid (IL), 1-butyl-3-methylimidazolium chloride [C 4 mim] [Cl]. Composite materials were constructed from AG-CH-IL solutions using the antisolvent methanol, and IL was recovered from the solutions. Composite materials could be uniformly decorated with silver oxide (Ag 2 O) nanoparticles (Ag NPs) to form nanocomposites in a single step by in situ synthesis of Ag NPs in AG-CH-IL sols, wherein the biopolymer moiety acted as both reducing and stabilizing agent. Cooling of Ag NPs-AG-CH-IL sols to room temperature resulted in high conductivity and high mechanical strength nanocomposite ionogels. The structure, stability and physiochemical properties of composite materials and nanocomposites were characterized by several analytical techniques, such as Fourier transform infrared (FTIR), CD spectroscopy, differential scanning colorimetric (DSC), thermogravimetric analysis (TGA), gel permeation chromatography (GPC), and scanning electron micrography (SEM). The result shows that composite materials have good thermal and conformational stability, compatibility and strong hydrogen bonding interactions between AG-CH complexes. Decoration of Ag NPs in composites and ionogels was confirmed by UV-Vis spectroscopy, SEM, TEM, EDAX and XRD. The mechanical and conducting properties of composite ionogels have been characterized by rheology and current-voltage measurements. Since Ag NPs show good antimicrobial activity, Ag NPs -AG-CH composite materials have the potential to be used in biotechnology and biomedical applications whereas nanocomposite ionogels will be suitable as precursors for applications such as quasi-solid dye sensitized solar cells, actuators, sensors or electrochromic displays.

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Plasticizing Effect of Choline Chloride/Urea Eutectic-Based Ionic Liquid on Physicochemical Properties of Agarose Films

Cited by 43 publications

References 25 publications

Interaction Study of Binary Solvent Systems Ionic Liquid and Deep Eutectic Solvent with Rotenone

Interaction Study of Binary Solvent Systems Ionic Liquid and Deep Eutectic Solvent with Rotenone

Cationic quaternization of cellulose with methacryloyloxy ethyl trimethyl ammonium chloride via ATRP method

Facile preparation of agarose–chitosan hybrid materials and nanocomposite ionogels using an ionic liquid via dissolution, regeneration and sol–gel transition

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