Substituent position effects on sunscreen photodynamics: A closer look at methyl anthranilate

“…More recently, TR-IY studies have sought to determine whether altering the location of the amino group, and thus removing the intramolecular hydrogen bond formed with the ester group, would improve the photodynamics for use in sunscreens [188].…”

“…Rodrigues et al [188] note that the pump pulse will excite both rotamers of m-MA (shown in Figure 3(a)). In comparison, the rate of decay for the para species is much slower than the meta species [188] (ca.…”

“…Rodrigues et al [188] note that the pump pulse will excite both rotamers of m-MA (shown in Figure 3(a)). In comparison, the rate of decay for the para species is much slower than the meta species [188] (ca. Rodrigues et al [188] to an inaccessible CI, the existence of which was attained using computational methods [188].…”

“…Overall, owing to its faster excited state decay and lower quantum yield of fluorescence than o-MA (25 ± 5% compared to > 60% [188,190]), plus the presence of at least one accessible conical intersection of a prefulvenic nature, m-MA is a more appropriate choice for sunscreen molecular design. Examples of prefulvenic conical intersections, which involve distortion of the benzene ring, have been explored in detail in separate publications [191][192][193][194].…”

Applications of ultrafast spectroscopy to sunscreen development, from first principles to complex mixtures

“…More recently, TR-IY studies have sought to determine whether altering the location of the amino group, and thus removing the intramolecular hydrogen bond formed with the ester group, would improve the photodynamics for use in sunscreens [188].…”

“…Rodrigues et al [188] note that the pump pulse will excite both rotamers of m-MA (shown in Figure 3(a)). In comparison, the rate of decay for the para species is much slower than the meta species [188] (ca.…”

“…Rodrigues et al [188] note that the pump pulse will excite both rotamers of m-MA (shown in Figure 3(a)). In comparison, the rate of decay for the para species is much slower than the meta species [188] (ca. Rodrigues et al [188] to an inaccessible CI, the existence of which was attained using computational methods [188].…”

“…Overall, owing to its faster excited state decay and lower quantum yield of fluorescence than o-MA (25 ± 5% compared to > 60% [188,190]), plus the presence of at least one accessible conical intersection of a prefulvenic nature, m-MA is a more appropriate choice for sunscreen molecular design. Examples of prefulvenic conical intersections, which involve distortion of the benzene ring, have been explored in detail in separate publications [191][192][193][194].…”

Applications of ultrafast spectroscopy to sunscreen development, from first principles to complex mixtures

“…This allows us to monitor how the absorbance of the anion varies with wavelength, while simultaneously measuring the production of any photoproducts . Our laser‐based approach is in the spirit of a number of recent studies where advanced spectroscopic techniques have been applied to sunscreen molecules under highly‐controlled conditions …”

Direct Observation of Photochemical Free Radical Production from the Sunscreen 2‐Phenylbenzimidazole‐5‐Sulfonic Acid via Laser‐Interfaced Mass Spectrometry

New Generation UV-A Filters: Understanding Their Photodynamics on a Human Skin Mimic