Corbett, TDWHartland, AHenderson, WRys, GJSchipper, LA2023-04-182021-05-142021-09-202021-05-090048-969734020089 (pubmed)https://hdl.handle.net/10182/16046Diffusive Gradients in Thin-Films (DGT) have traditionally been used to measure time-weighted average concentration in water. We tested whether Br¯−DGT in combination with the trace-dilution flow rate method, could be used as a new approach for measuring water flow rate. A novel bromide selective DGT based on the Purolite Bromide Plus anion exchange resin (Br¯−DGT) was developed, which provided environmental bromide concentrations comparable to grab samples. The Br¯−DGT provided quantitative bromide concentrations at synthetic natural solution. The uptake efficiency was 95.7 ± 3.4%, and the elution efficiency was 95.5 ± 4.7%. The absorption maximum/saturation point of each binding disk was 0.684 ± 0.001 mg. Bromide adsorption to the binding layer was linear to 44.1% of the total binding capacity, 0.302 mg. The determined diffusion coefficient through the agarose cross-linked polyacrylamide (APA) hydrogels was 1.05 × 10‾⁵ cm² s¯¹ at 17.9 °C, temperature corrected to 25 °C was 1.29 × 10‾⁵ cm² s¯¹. DGT flow rates were between −14.7 and 6.50% of the flow independently monitored flow rate (weir). In comparison, grab sample flow rates diverged by 5.52 to 58.9% from the weir flow rate.11 pagesPrint-Electronicen© 2021 Elsevier B.V. All rights reserved.bromideconstant rate trace-dilutiondiffusionDiffusive Gradients in Thin-Filmsflow rateJournal Article10.1016/j.scitotenv.2021.1477371879-10262023-04-13