Oxygen and proton reduction by decamethylferrocene in non-aqueous acidic media

Abstract: Experimental studies and density functional theory (DFT) computations suggest that oxygen and proton reduction by decamethylferrocene (DMFc) in 1,2-dichloroethane involves protonated DMFc, DMFcH + , as an active intermediate species, producing hydrogen peroxide and hydrogen in aerobic and anaerobic conditions, respectively.O 2 reduction by ferrocene and its derivatives in organic media in the presence of an acid, such as trichloroacetic and trifluoroacetic acids and perchloric acid, has been known for many yea… Show more

“…This method was applied to determine the fluxes of hydrogen generated at a liquid|liquid interface with decamethylferrocene as the electron donor [3][4][5]. The proposed method seems to be suitable to other liquid junctions, providing that both oxidized and reduced form of electron donor are not soluble in aqueous phase.…”

“…Recently, it has been shown that hydrogen evolution reaction (HER) occurs at the 1,2-dichloroethane (DCE)| water interface under anaerobic conditions, with decamethylferrocene (DMFc) as a reducing agent present in the organic phase [3][4][5]. This reaction is significantly accelerated by the presence of micro-or nanoparticles [6,7].…”

Scanning electrochemical microscopy determination of hydrogen flux at liquid|liquid interface with potentiometric probe

“…This method was applied to determine the fluxes of hydrogen generated at a liquid|liquid interface with decamethylferrocene as the electron donor [3][4][5]. The proposed method seems to be suitable to other liquid junctions, providing that both oxidized and reduced form of electron donor are not soluble in aqueous phase.…”

“…Recently, it has been shown that hydrogen evolution reaction (HER) occurs at the 1,2-dichloroethane (DCE)| water interface under anaerobic conditions, with decamethylferrocene (DMFc) as a reducing agent present in the organic phase [3][4][5]. This reaction is significantly accelerated by the presence of micro-or nanoparticles [6,7].…”

Scanning electrochemical microscopy determination of hydrogen flux at liquid|liquid interface with potentiometric probe

“…9, and in fact we have shown that the proton reduction competes with oxygen reduction in aerobic conditions. 24 Of course, the redox potential for the reduction of O 2 being much more positive than for the reduction of the aqueous protons, this is not surprising that with a larger driving force the reduction of O 2 occurs quasi-instantly by contacting the biphasic system whilst the evolution of H 2 is a much slower process.…”

Molecular electrocatalysis at soft interfaces

“…4 whereas in aerobic conditions both hydrogen and hydrogen peroxide are formed by oxygen reduction. [13,14] One of the objectives of LEPA in the NCCR MuST project is to investigate the role of the interface and its polarisation in the stabilisation of charge separated states in sensitizer-molecular dyads such as the one illustrated in Fig. 5.…”

Artificial Photosynthesis at Soft Interfaces