Low cost layer by layer construction of CNT/chitosan flexible paper-based electrodes: a versatile electrochemical platform for point of care and point of need testing

FIGUEREDO FEDERICO; GONZALEZ PABON MARIA JESUS; CORTÓN, EDUARDO

ELECTROANALYSIS

WILEY-V C H VERLAG GMBH

Lugar: Weinheim; Año: 2017 vol. 30 p. 497 - 508

1040-0397

Modification of cellulosic paper with carbon nanotubes (CNT) was studied for the development of electronic and analytical devices. Interesting results were published by using a CNT aqueous solution and the capillary forces of filter paper to make conductive tracks, supercapacitors, potentiometric electrodes and chemometric sensors. In this report, we show for the first time an electrochemical characterization of CNT-CS-SDS paper electrodes constructed with an ink containing optimized proportions of multi-wall CNT, chitosan (CS) and sodium dodecyl sulfate (SDS), and we compared our data with CNT-SDS paper electrodes constructed with apreviously reported ink. We achieved better reversibility (ΔE = 131 ± 14 mV,CVs) and reproducibility (RSD = 3.63 %) with CNT-CS-SDS paper electrodes, when compared to CNT-SDS paper electrodes (ΔE = 249 ± 7 mV; RSD =6.8 %) used as controls. When electrodes were fold at 90° angle, CNT-CS-SDS paper electrodes showed lower RSD than CNT-SDS paper electrodes, 8.43 % and 21.5 % respectively. These results are in concordance with SEM analysis indicating a dense CS film in CNT-CS-SDS paper electrodes. As a proof of concept, we determine dopamine concentration by DPV in the presence of ascorbic and uric acids, the limit ofdetection calculated was 6.32 µM. Moreover, a bismuth-film was prepared by insitu plating of Bi into CNT-CS-SDS paper electrodes. ASV allowed us to detect Pb in the presence of Bi (10 -200ppb) with a limit of detection of 6.74 ppb.