Pd (II) decorated conductive two-dimensional chromium-pyrazine metal-organic framework for rapid detection of hydrogen

The utilization of H-2 for versatile application has demanded highly selective, low cost and rapid hydrogen sensors that are proficient in sensing H-2 near flammability limit. In this report, (CrCl2)-Cl-III(pyrazine)(2) MOF with negatively charged pyrazine linkers in its structure is used for the stabilization of Pd (II) via charge transfer interactions. This material design turned an innocent MOF into selective hydrogen sensor that can respond (through decrease in resistance under dynamic sensing setup) to H-2 in 5-7 s with a detection range of 0.25%-1% H-2 concentration. A correlation of H2 sensing characteristics and the structure-property relationship is established using density functional theory (DFT) cal-culations. The calculations suggested that near fermi level in PdII@CrPy, the bandwidth increases upon interaction with H-2 thereby the phase space for electron delocalization increases leading to better carrier mobility. This new approach not only yields novel sensing properties but also enables limited usage of precious metal to develop cost-effective sensors. (c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

Automated summary

This report presents an innovative approach to transform a harmless MOF into a selective hydrogen sensor by using (CrCl2)-Cl-III(pyrazine)(2) MOF with negatively charged pyrazine linkers for the stabilization of Pd (II) via charge transfer interactions. The sensor exhibits rapid response to H-2, with a detection range of 0.25%-1% H-2 concentration.