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Tsourounaki, Kostoula
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article
Nanofibrillar cellulose-chitosan composite film electrodes
Abstract
<p>Glassy carbon electrodes are modified with a thin film of a cellulose-chitosan nanocomposite. Cellulose nanofibrils (of ca. 4 nm diameter and 250 nm length) are employed as an inert backbone and chitosan (poly-D-glucosamine, low molecular weight, 75-85% deacetylated) is introduced as a structural binder and "receptor" or molecular binding site. The composite films are formed in a solvent evaporation method and prepared in approximately 0.8 μm thickness. The adsorption of three molecular systems into the cellulose-chitosan films is investigated and approximate Langmuirian binding constants are evaluated: i) Fe(CN)<sub>6</sub><sup>4-</sup> (K <sub>Ferrocyanide</sub> = 2.2 × 10<sup>3</sup> mol<sup>-1</sup> dm <sup>3</sup> in 0.1 M phosphate buffer at pH 6) is observed to bind to ammonium chitosan functionalities (present at pH < 7), ii) triclosan (K <sub>Triclosan</sub> = 2.6 × 10<sup>3</sup> mol<sup>-1</sup> dm <sup>3</sup> in 0.1 M phosphate buffer pH 9.5) is shown to bind only weakly and under alkaline conditions, and iii) the anionic surfactant dodecylsulfate (K<sub>SDS</sub> = 3.3 × 10<sup>4</sup> mol<sup>-1</sup> dm<sup>3</sup> in 0.1 M phosphate buffer pH 6) is shown to bind relatively more strongly in acidic media. The competitive binding of Fe(CN)<sub>6</sub><sup>4-</sup> and dodecylsulfate anions is proposed as a way to accumulate and indirectly determine the anionic surfactant.</p>