MODIFICATION OF CELLULOSE BY ANIONIC POLYSACCHARIDES

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MODIFICATION OF CELLULOSE BY ANIONIC POLYSACCHARIDES UTTAM C. PAUL , A. P. Manian, B. Široká, T. Bechtold Research Institute of Textile Chemistry and Textile Physics University of Innsbruck, Austria STEP-ITN Mid-year meeting, Dornbirn, Austria, 13-14 March 2012

Outline of the Presentation Introduction Part 1: Ca2+ Modulated Interactions of Polysaccharides with Cellulose Part 2: Sorption of Iron (III) and Alginate to cellulose from Iron (III)-Alginate Complexes Part 3: Modification of Cellulose Fabric by Iron (III)-Polysaccharide Complexes Potential Applications and Future Aspect of Work

Introduction Incorporation of polysaccharide to cellulose is an important field of research -In textiles polysaccharides like alginate use as a sizing agent, print past and thickener. Deleterious effect! Extensive chemical modifications! Cellulose Alginate Polysaccharides for cellulose modification But, cellulose is anionic and, it is poorly compatible with another anionic polysaccharide matrix. -Challenges of the research – incorporation of anionic polysaccharide, bring novel functionalities, without deteriorating its strength properties

PART 1 Ca2+ Modulated Interactions of Polysaccharides with Cellulose

Ca2+ Adsorbed Cellulose fibres Ca2+- PS Adsorbed Cellulose Fibres DM Cellulose Fibers Scheme : Sorption of polysaccharide into Ca2+ containing cellulose fibres Pectin Molecules Ca2+ ions Ca2+ R. Kohn/PAC/1975, V.42, Issue 3, P 371-397 Immerse in Ca2+ Ca2+ Adsorbed Cellulose fibres Immerse in PS Ca2+- PS Adsorbed Cellulose Fibres

Paul, U.C., et al., Carbohydrate Polymers. 2012. 87. p. 695-700 Introduction Part 1

calculated thickness layer 7 nm ESEM analysis of polysaccharides adsorbed fibres calculated thickness layer 7 nm Untreated Viscose (CV) 8mM Ca2+ -Pectin Treated CV

Staining of Ca2+ by Alizarin Dye DM CV 8 mM Ca2+ CV Pectin CV 8 mM Ca2+, Pectin CV Staining of Polysaccharides by Ruthenium Red Dye Introduction Part 1 Part 2 Part 3 Applications

PART 2 Sorption of Iron (III) and Alginate to Cellulose from Iron (III)- Alginate Complexes Introduction Part 1 Part 2 Part 3 Applications

Experimental Procedure Residual Alginate in exhausted solution Cellulose Fiber (CLY) Immerse in Fe (III) – Alginate Solution, 24 h, 300C and 600C Fe (III) - Alginate - Fe (III) content in fiber Alginate content in fiber Residual [Fe3+] in exhausted solution Preparation of Fe (III) – Alginate Complex Solution 0.5:1 M and 0.05:1 M, pH 3, 7, 9, 11, 13 Alginate and Fe (III) in blank solution FTIR ESEM, K/S Fiber Tenacity, Elongation and Abrasion resistance

Sorption mechanism of Fe3+, alginate and cellulose Bechtold, T., et al., Carbohydrate Polymers. doi. 10.1016/j.carbpol.2012.01.064 Sorption mechanism of Fe3+, alginate and cellulose

ESEM analysis of alginate adsorbed fibres Untreated Lyocell (CLY) Calculated max. thickness layer of alginate is 22 nm 0.5: 1 M Fe3+-alginate Treated CLY

PART 3 Modification of Cellulose Fabric by Iron (III)- Polysaccharide Complexes Introduction Part 1 Part 2 Part 3 Applications

(a) Alginate , (b) (Fe + alginate) complex solution Fabric (viscose, woven) Demineralized with EDTA at RT for 1 h – wash with DI water (to remove Ca2+) Fe + Alginate complex Add Fe(NO3)3 to sodium alginate Add NaOH dropwise to Fe-Alginate mixture All the above under stirring of ca. 1200 rpm – continue stirring until homogeneous solution formed Final composition of complex: Fe: 0.02 mol/l Alginate: 0.04 mol/l NaOH: 0. 1 mol/l Complex pH ≈ 12.7 Treatment Process: Pad batch Process (a) Alginate , (b) (Fe + alginate) complex solution

Introduction Part 1 Part 2 Part 3 Applications

ESEM analysis of (Fe + alginate) adsorbed fabric Untreated CV fabric (Fe + alginate) complex treated CV fabric

Ultraviolet Protection Factor (UPF) AS/NZS 4399 Australian/New Zealand Standard® Sun protective clothing—Evaluation and classification Ultraviolet Protection Factor (UPF) UPF Rating Protection Category % UV Radiation Blocked UPF 15 - 24 Good 93.3 - 95.9 UPF 25 - 39 Very Good 96.0 - 97.4 UPF 40 – 49, 50+ Excellent 97.5 or more

Applications and Future Potential There is a growing interest for sustainable PS modified fibers in different fields: textiles, pharmacuticals, and reinforcement materials industry. Applications: Smart fabric Sanitary goods Smart dressing and wound healing Color textiles (exellent color fastness properties) UV protective textiles The process is environmental friendly, so, It is believe that this modification procedure can be used for practical applications Introduction Part 1 Part 2 Part 3 Applications

Thank you for your attention The research leading to these results has received funding from the European Community’s Seventh Framework Programme [FP7/2007-2013] under Grant Agreement No. 214015.

(Fe + alginate) complex Light micrographs of (Fe + alginate) complex treated CV Untreated CV (Fe + alginate) complex treated CV

T = thickness of polysaccharide layer (nm), d = fiber linear density (1.3 dtex = 1.3 g/10,000 m), r = fiber radius (m), P = average polysaccharide content on fiber (g/g),  = polysaccharide density (approximated at 1 g/cm3).

UPF after Ruthenium Red Dye