Metal Organic Framework-235 (MOF-235) Modified Carbon Paste Electrode for Catechol Determination in Water

MOF-235 is presented as an orange powder, with crystals of the octahedral formation. It was already used as adsorbent to remove different compounds from water; however, no attempts have been published about the exploration of the MOF-235 application as electrochemical sensor for organic compounds yet. MOF-235 was synthetized and after that, it was characterized by SEM, XRD and FTIR. Graphite electrodes (GEs) were modified with different MOF-235 ratio (5 %, 7 %, 10 %, 12 % and 14 %) and these modified GEs were characterized by cyclic voltammetry (CV) measurements in order to determine the effect of MOF-235 concentration on the current response. Results indicated that, a significant improvement on the current response was attained at MOF-235(10 %)/GE respect to unmodified GE. This behavior is related to the pore structure and multiple active sites on the MOF surface. The performance of the MOF-235(10 %)/GE as electrochemical sensor for detecting catechol was assessed by differential pulse voltammetry (DPV). Catechol detection response of MOF-based sensor provided a detection limit of about 12.79 mu mol L(-1)with a correlation coefficient (R-2) of about 0.9928 ranging from 12 to 514 mu mol L-1. Finally, MOF-235(10 %)/GE was used to determine catechol in real water matrixes.

Automated summary

MOF-235, as an orange powder with octahedral crystals, has been explored as an electrochemical sensor for organic compounds. Modification of graphite electrodes with MOF-235 (10%) showed significant improvement in current response for detecting catechol, demonstrating potential application in real water samples.