An improved high performance liquid chromatographic method for determining urinary oxalate, making use of an ID-MS reference method
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Cited by (26)
Production of high-quality combustible gas: The green and efficient utilization of inferior dust removal ash and high-temperature flue gas in converters
2020, Journal of Cleaner ProductionCitation Excerpt :Therefore, this study used the Reaction and Equilib modules of the FactSage 6.1 software for a preliminary investigation of the possibility of DRA reacting with the components of high-temperature flue gas in a converter. The high-temperature reaction characteristics and gas composition variation rules of DRA under different parameters, including the temperature, gas ratio, particle size, and ejection amount, were systematically explored using thermogravimetric (Koolstra et al,.1987), settling furnace, and industrial experiments. The samples were characterized and analyzed using SEM/energy-dispersive X-ray (EDX), X-ray powder diffraction (XRD), Brunauer–Emmett–Teller (BET), and other analysis and detection methods.
Optical oxalate detector based on chemical modification of a polymer film
2005, Sensors and Actuators, B: ChemicalUrinary analysis of nephrolithiasis markers
2002, Journal of Chromatography B: Analytical Technologies in the Biomedical and Life SciencesBi-enzymatic optode detection system for oxalate determination based on a natural source of enzyme
2001, Analytica Chimica ActaCitation Excerpt :The same problem happens with trees and grass [3,6], ornamental [5] and comestible [7] plants. Different methods have been described in the literature for oxalate determination by employing chromatography [8–12], spectrophotometry [2,13,14] and permanganometric titration [15]. However, these methods are expensive, time consuming, have poor selectivity and require laborious sample pre-treatment.
Catalytic spectrophotometric methods for the determination of oxalic acid
1996, Analytica Chimica Acta