Photobleaching of Erythrosine B in Aqueous Environment Investigation Beyond pH^†

Abstract: In the scientific literature, the term aqueous environment is loosely employed as it encompasses a broad range of different buffering agents. While there is an increasing number of experimental evidence that point toward specific buffer effects extending far beyond pH, the impact of the chemical nature of the buffering ions is often disregarded, especially in photochemical studies. Herein, we highlighted the importance of buffer specific effects on both the photobleaching and the singlet oxygen quantum yields … Show more

“…As a visible light photosensitizer, erythrosine has conjugated carbon–carbon bonds networks that provide absorption at longer wavelengths ( Bergmann et al, 2021 ). These conjugated networks are susceptible to 1 O 2 oxidation and direct photolysis, which destroys conjugation and eliminates absorbance in the visible spectrum, leading to color fading of the solution (photobleaching) and formation of photooxidation products ( Beltukova et al, 2017 , Kravchenko et al, 2022 ). In this study, the correlation between the inactivation effect of erythrosine against the virus and its color change was investigated ( Fig.…”

Production of singlet oxygen from photosensitizer erythrosine for facile inactivation of coronavirus on mask

“…As a visible light photosensitizer, erythrosine has conjugated carbon–carbon bonds networks that provide absorption at longer wavelengths ( Bergmann et al, 2021 ). These conjugated networks are susceptible to 1 O 2 oxidation and direct photolysis, which destroys conjugation and eliminates absorbance in the visible spectrum, leading to color fading of the solution (photobleaching) and formation of photooxidation products ( Beltukova et al, 2017 , Kravchenko et al, 2022 ). In this study, the correlation between the inactivation effect of erythrosine against the virus and its color change was investigated ( Fig.…”

Production of singlet oxygen from photosensitizer erythrosine for facile inactivation of coronavirus on mask

“…While studies have been performed in the context of biological labeling and imaging, [10] more studies are needed in order to determine the photobleaching behavior and impact in photocatalytic settings. Past work has determined the bleaching kinetics of Erythrosin B, [11] fluorescein, [12,13] and Eosin Y, [14] for example, but these studies involve harsher settings than required for photocatalysis by using conditions such as highintensity laser irradiation or aqueous environments that may accelerate catalyst oxidation and degradation.…”

Effects of Surface‐Immobilization on Photobleaching of Xanthene Dye Photocatalysts

“…Its unique red coloration characterizes its exceptional capability to absorb light within the visible spectrum (450–550 nm). 69 This distinct trait positions it ideally for capturing light energy and driving various photochemical reactions. Erythrosine B dye has proven invaluable across various disciplines, from its role in enhancing dye-sensitized solar cells 70 to its application in advanced photodynamic therapy.…”

Emerging developments in dye-sensitized metal oxide photocatalysis: exploring the design, mechanisms, and organic synthesis applications