Title of article
Studies on the molecular flexibility of novel dendronized carboxymethyl cellulose derivatives
Author/Authors
Matthias Pohl، نويسنده , , Gordon A. Morris، نويسنده , , Steve E. Harding، نويسنده , , Thomas Heinze، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
13
From page
1098
To page
1110
Abstract
Water-soluble deoxy-azido cellulose derivatives were synthesized by heterogeneous carboxymethylation, applying 2-propanol/aqueous NaOH as slurry medium. The novel, carboxymethyl deoxy-azido cellulose provides a convenient starting material for the selective dendronization of cellulose via the copper-catalyzed Huisgen reaction yielding water-soluble carboxymethyl 6-deoxy-(1-N-[1,2,3-triazolo]-4-polyamidoamine) cellulose derivatives of first (degree of substitution, DS 0.51), second (DS 0.44) and third generation (DS 0.39). The novel biopolymer derivatives were characterized by FT-IR and NMR spectroscopy, intrinsic viscosity, sedimentation coefficient and weight average molar mass. Solution conformation and flexibility were estimated qualitatively using conformation zoning and quantitatively (persistence length) using the combined global method. Sedimentation conformation zoning showed a semi-flexible coil conformation and the global method applied to each carboxymethyl deoxy-azido cellulose and carboxymethyl 6-deoxy-(1-N-[1,2,3-triazolo]-4-polyamidoamine) cellulose derivative yielded persistence length all within the range of 2.8–4.0 nm with no evidence of any change in flexibility with dendronization.
Keywords
cellulose , Dendronized cellulose , Polysaccharides , ultracentrifugation , Conformation analysis , Dendronization
Journal title
European Polymer Journal(EPJ)
Serial Year
2009
Journal title
European Polymer Journal(EPJ)
Record number
1228069
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