Method of obtaining cellulose diacetate with a pregiven chiral structure for highly efficient materials

PDF / 1,202,843 Bytes
14 Pages / 547.087 x 737.008 pts Page_size
76 Downloads / 189 Views

(0123456789().,-volV) ( 01234567 89().,-volV)

ORIGINAL RESEARCH

Method of obtaining cellulose diacetate with a pregiven chiral structure for highly efficient materials Anna B. Shipovskaya

. Svetlana M. Rogacheva

. Olga N. Malinkina

Received: 2 May 2020 / Accepted: 3 September 2020 Ó Springer Nature B.V. 2020

Abstract The physicochemical properties of 16 laboratory and 9 commercial samples of cellulose diacetate (CDA) of standard (3 wt%) and high (3.5–40 wt%) humidity, their solutions in acetone and an acetone–water mixture with component ratios of 95:5–99.5:0.5 were studied. Samples were taken at the polymer drying stage after wood pulp acetylation under heterogeneous conditions, followed by saponification in an alkaline medium. It was established that high-humidity CDA differed from the standard sample by an amorphized structure, improved solubility with almost the same numerical values of the size and concentration of supramolecular particles, turbidity, viscosity and viscous flow activation energy. The chiral structure of high-humidity CDA differed significantly from the polymer of standard humidity, which was confirmed by a change in the values and sign (from positive to negative) of the specific optical

rotation in solution. Changes in humidity by means of polymer hydration in water or in steam within 20–100 °C, as well as water addition to an acetone solution of standard CDA, almost did not affect the stereomeric organization of the cellulose ester. The following were prepared from the CDA with high humidity and, accordingly, a modified chiral structure: fibers with improved physico-mechanical characteristics; membranes capable of purifying blood plasma from cholesterol while saving proteins and electrolytes; films with high selectivity and hydrodynamic permeability; and filter sorbents with a high degree of retaining the harmful components of tobacco smoke. It has been suggested that obtaining high-humidity CDA can be considered as an alternative method of obtaining acetic cellulose ester with a pregiven chiral structure to manufacture highly efficient materials, including those with novel functional properties.

Electronic supplementary material The online version of this article (https://doi.org/10.1007/s10570-020-03439-5) contains supplementary material, which is available to authorized users. A. B. Shipovskaya (&) O. N. Malinkina Institute of Chemistry, Saratov State University, 83 Astrakhanskaya St., Saratov, Russian Federation 410012 e-mail: [email protected] S. M. Rogacheva Department of Ecology and Service, Saratov State Technical University, 77 Polytechnicheskaya St., Saratov, Russian Federation 410054

123

Cellulose

Graphic abstract

Keywords Cellulose diacetate Humidity Chiral structure Fibers Films Membranes Filter sorbents Abbreviations AD Acetylation degree CDA Cellulose diacetate CTA Cellulose triacetate W Moisture content D Amount of water C Concentration of the polymer CCh Concentration of total cholesterol S Ionic selectivity G Hydrodynamic permeability R Adsor

Data Loading...

Method of obtaining cellulose diacetate with a pregiven chiral structure for highly efficient materials

Recommend Documents

Cellulose phenylcarbamate-derived hybrid bead-type chiral packing materials for efficient chiral recognition

Bioinspired cellulose membrane with hierarchically porous structure for highly efficient solar steam generation

A Highly Efficient On-chip 3D Plasmonic Nanofocusing Structure

Bio-inspired antifouling Cellulose nanofiber multifunctional filtration membrane for highly efficient emulsion separatio

An efficient multiscale optimization method for conformal lattice materials

Photoacoustic Method for Obtaining Strength Characteristics of Thin Films

On approach for obtaining approximate solution to highly nonlinear oscillatory system with singularity

Cellulose-Based Antimicrobial Materials

Cellulose: Biosynthesis and Structure

Ferroelectricity of Chiral Compounds in Highly Ordered Smectic Phases

heFFTe: Highly Efficient FFT for Exascale

A Highly Efficient XML Compression Scheme for the Web