Electrochemical Deposition and Thermoelectric Characterisation of a Semiconducting 2-D Metal-Organic Framework Thin Film
The electrical conductivity and porosity of the 2-dimensional metal-organic framework Cu<sub>3</sub>(2,3,6,7,10,11-hexahydroxytriphenylene)<sub>2</sub> [Cu<sub>3</sub>(HHTP)<sub>2</sub>] make it a promising candidate for thermoelectric applications. In this work, we report the electrochemical synthesis of Cu<sub>3</sub>(HHTP)<sub>2</sub> films by an anodization approach and an evaluation of its thermoelectric properties. The electrochemically synthesised Cu<sub>3</sub>(HHTP)<sub>2</sub> thin films were transferred using a wet chemical method in order to perform electrical measurements. We are reporting the first thermoelectric measurements of this framework both in bulk and thin film form which resulted in Seebeck coefficients of -7.24 µV/K and -121.4 µV/K with a power factor of 3.15x10<sup>-3</sup> µW m<sup>-1</sup> for the film respectively. The negative Seebeck coefficients suggest that Cu<sub>3</sub>(HHTP)<sub>2</sub> behaves as an n-type semiconductor.
