The applications of Keggin-based metal-organic compounds in sensing and catalysis.

Environmental pollution and energy problems caused by excessive use of fossil fuels deviate from the theme of green and sustainable development. It is very promising to detect small molecules or catalyze the conversion of pollutants to obtain renewable energy by using photoelectric technology. Therefore, there is an urgent requirement to develop materials with low detection limits and high catalytic performance.

Four polyoxomolybdated-based 3D compounds as supercapacitors and amperometric sensors.

Four polyoxomolybdated compounds based on Tetp (Tetp = 4-[4-(2-Thiophen-2-yl-ethyl)-4H-[1, 2, 4]triazole-3-yl]-pyridine), namely [Zn(Tetp)(HO)][(β-MoO)] (Zn-Mo), [Co(Tetp)(HO)][(β-MoO)] (Co-Mo), [Cu(Tetp)(HO)]{H[K(HO)](θ-MoO)(MoO)}·8HO (Cu-Mo) and [Cu(Tetp)][PMoO]·HO (Cu-PMo) are synthesized by hydrothermal methods and are used as electrode materials for supercapacitors(SCs) and electrochemical sensors. Inserting polyoxometalates (POMs) with redox active sites into transition metal compounds (TMCs) can improve the internal ion/electron transfer rate, thus effectively enhancing the electrochemical performance. Compared with the parent POMs, four compounds exhibit excellent electrochemical properties.