Sticking to (first) principles: quantum molecular dynamics and Bayesian probabilistic methods to simulate aquatic pollutant absorption spectra

Abstract: This work explores the relationship between theoretically predicted excitation energies and experimental molar absorption spectra as they pertain to environmental aquatic photochemistry. An overview of pertinent Quantum Chemical descriptions of sunlight-driven electronic transitions in organic pollutants is presented. Second, a combined molecular dynamics (MD), time-dependent density functional theory (TD-DFT) analysis of the ultraviolet to visible (UV-Vis) absorption spectra of six model organic compounds is … Show more

“…Like many marine toxins and aquatic pollutants, , the antibiotic chloramphenicol strongly absorbs in the 300 nm region of the spectrum but is nearly transparent above 350 nm (Figure S5). It is therefore well suited to evaluate the potential of sfGFP-decorated ZnS:Mn nanocrystals in IFE sensing since it should quench both inorganic and protein emission by absorbing excitation light at 305 nm, but leave sfGFP emission unaffected when excitation is conducted at 365 nm.…”

Streamlined Synthesis and Assembly of a Hybrid Sensing Architecture with Solid Binding Proteins and Click Chemistry

“…Like many marine toxins and aquatic pollutants, , the antibiotic chloramphenicol strongly absorbs in the 300 nm region of the spectrum but is nearly transparent above 350 nm (Figure S5). It is therefore well suited to evaluate the potential of sfGFP-decorated ZnS:Mn nanocrystals in IFE sensing since it should quench both inorganic and protein emission by absorbing excitation light at 305 nm, but leave sfGFP emission unaffected when excitation is conducted at 365 nm.…”

Streamlined Synthesis and Assembly of a Hybrid Sensing Architecture with Solid Binding Proteins and Click Chemistry