Abstract
Abstract The instrumentation development of a spectrophotometer based on an acousto-optic tunable filter (AOTF) and its applications in a flow-injection (FI) system for gradient exploitation is described. This compact, all-solid state spectrophotometer which contains no-moving parts, can be scanned in the visible region (390–650 nm) at a speed of 300 nm/s. The fast scanning capability of the instrument made it possible to monitor the spectral response of an acid-base indicator mixture. The recorded spectra of the indicators were then converted to pH by means of a partial least square (PLS) multivariate calibration technique. With use of the same indicator mixture, the relationship obtained facilitates the determination of pH of any flow-injection pH gradient system which is produced by injecting a strong acid or base over a mixture of buffered solutions with a wide range of pH values. The time versus pH relationship can, therefore, be readily established for any buffer-reagent mixture flowing in the FI system. The FI system, which has been calibrated this way, can then be used to rapidly characterize the behavior of chemical systems as a function of pH. Two examples are demonstrated in this work: the determination of the p K a of the weak acids and of the complex formation between iron(III) and sulfosalicylic acid.
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