Confirming the Formation of Hydroxyl Radicals in the Catalytic Decomposition of H₂O₂ on Metal Oxides Using Coumarin as a Probe

Abstract: Hydrogen peroxide can be catalytically decomposed to O2 and H2O on metal oxide surfaces in contact with aqueous solutions containing H2O2. The initial step in this process has been proposed to be the formation of surface‐bound hydroxyl radicals which has recently been verified using tris as a radical scavenger. Here, we make use of the unique fluorescent product 7‐hydroxycoumarin formed in the reaction between hydroxyl radicals and coumarin to probe the formation of surface‐bound hydroxyl radicals. The experim… Show more

“…To exclude the specific presence of ⋅OH radicals in the blue‐LED driven oxidation of 1 to hydroperoxide 2 , the reaction was repeated in the absence of HRP using coumarin 3 b as a well‐recognized ⋅OH acceptor (“coumarin method”) (Figure 4). [53,54] In accordance with the literature, 3 b invariably reacts with ⋅OH at the C‐7 position of the aromatic ring to yield fluorescent derivative 3 a [55] . Under our experimental conditions no traces of 3 a were detected by HPLC analysis (Materials and methods and SI#4).…”

Oxidative Coupling of Coumarins by Blue‐LED‐Driven in situ Activation of Horseradish Peroxidase in a Two‐Liquid‐Phase System

“…To exclude the specific presence of ⋅OH radicals in the blue‐LED driven oxidation of 1 to hydroperoxide 2 , the reaction was repeated in the absence of HRP using coumarin 3 b as a well‐recognized ⋅OH acceptor (“coumarin method”) (Figure 4). [53,54] In accordance with the literature, 3 b invariably reacts with ⋅OH at the C‐7 position of the aromatic ring to yield fluorescent derivative 3 a [55] . Under our experimental conditions no traces of 3 a were detected by HPLC analysis (Materials and methods and SI#4).…”

Oxidative Coupling of Coumarins by Blue‐LED‐Driven in situ Activation of Horseradish Peroxidase in a Two‐Liquid‐Phase System

“…but not [OH]T when assessing AOPs. Although it has been suggested that coumarin is more useful as a qualitative probe for OH radicals [42], it may be employed quantitatively to determine [OH]1 with the appropriate deliberations. It is first established that coumarin reacts to form a variety of hydroxylation products upon contact with OH [43].…”

Quantification of hydroxyl radicals in photocatalysis and acoustic cavitation: Utility of coumarin as a chemical probe

“…[15] The formation of hydroxyl radicals in the catalytic decomposition of H 2 O 2 on ZrO 2 -powder in aqueous suspension has previously been demonstrated by tris and methanol, and quite recently by the use of coumarin as a probe. [16] In the latter case, the OH radicals react with coumarin mainly by addition, which eventually gives rise to a number of stable hydroxylated products. One of these, 7-hydroxycoumarin, is strongly fluorescent, and can for this reason be detected spectroscopically.…”

Anion effects on the catalytic decomposition of H₂O₂ on ZrO₂(s) in aqueous systems