Catalytic dioxygen reduction mediated by a tetranuclear cobalt complex supported on a stannoxane core.

Title Catalytic dioxygen reduction mediated by a tetranuclear cobalt complex supported on a stannoxane core.
Authors A. Chandra; S. Mebs; S. Kundu; U. Kuhlmann; P. Hildebrandt; H. Dau; K. Ray
Journal Dalton Trans
DOI 10.1039/d0dt00475h
Abstract

The synthesis, spectroscopic characterization (infrared, electron paramagnetic resonance and X-ray absorption spectroscopies) and density functional theoretical calculations of a tetranuclear cobalt complex CoL1 involving a nonheme ligand system, L1, supported on a stannoxane core are reported. CoL1, similar to the previously reported hexanuclear cobalt complex CoL2, shows a unique ability to catalyze dioxygen (O) reduction, where product selectivity can be changed from a preferential 4e/4H dioxygen-reduction (to water) to a 2e/2H process (to hydrogen peroxide) only by increasing the temperature from -50 to 30 °C. Detailed mechanistic insights were obtained on the basis of kinetic studies on the overall catalytic reaction as well as by low-temperature spectroscopic (UV-Vis, resonance Raman and X-ray absorption spectroscopies) trapping of the end-on ?-1,2-peroxodicobalt(iii) intermediate 1. The CoL1- and CoL2-mediated O-reduction reactions exhibit different reaction kinetics, and yield different ratios of the 2e/2H and 4e/4H products at -50 °C, which can be attributed to the different stabilities of the ?-1,2-peroxodicobalt(iii) intermediates formed upon dioxygen activation in the two cases. The deep mechanistic insights into the transition-metal mediated dioxygen reduction process that are obtained from the present study should serve as useful and broadly applicable principles for future design of more efficient catalysts in fuel cells.

Citation A. Chandra; S. Mebs; S. Kundu; U. Kuhlmann; P. Hildebrandt; H. Dau; K. Ray.Catalytic dioxygen reduction mediated by a tetranuclear cobalt complex supported on a stannoxane core.. Dalton Trans. 2020;49(18):60656073. doi:10.1039/d0dt00475h

Related Elements

Cobalt

See more Cobalt products. Cobalt (atomic symbol: Co, atomic number: 27) is a Block D, Group 9, Period 4 element with an atomic weight of 58.933195. Cobalt Bohr ModelThe number of electrons in each of cobalt's shells is 2, 8, 15, 2 and its electron configuration is [Ar]3d7 4s2. The cobalt atom has a radius of 125 pm and a Van der Waals radius of 192 pm. Cobalt was first discovered by George Brandt in 1732. In its elemental form, cobalt has a lustrous gray appearance. Cobalt is found in cobaltite, erythrite, glaucodot and skutterudite ores. Elemental CobaltCobalt produces brilliant blue pigments which have been used since ancient times to color paint and glass. Cobalt is a ferromagnetic metal and is used primarily in the production of magnetic and high-strength superalloys. Co-60, a commercially important radioisotope, is useful as a radioactive tracer and gamma ray source. The origin of the word Cobalt comes from the German word "Kobalt" or "Kobold," which translates as "goblin," "elf" or "evil spirit.

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