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Abstract
A new method to determine Vitamin B12 by applying energy transfer fluorescence quenching of Acridine orange (AO)–Rhodamine B (RB) has been studied and established. It was found that the effective energy transfer could occur between AO and RB at λex/λem=470/575 nm in the dodecyl benzene sodium sulfonate (DBS) and Na2HPO4–citric buffer (pH=7.0). The fluorescence intensity of RB increased sharply. Vitamin B12 diminished the fluorescence intensity of RB depending on the isochromacticity between them. The detection limit of the method was up to 1.5×10−7 mol L−1. The range of determining concentration of Vitamin B12 was 2.5×10−7∼8.0×10−6 mol L−1. The relative standard deviation was 1.93% for six parallel determinations of Vitamin B12. The recoveries of Vitamin B12 were 97∼101%. The method was applied to the determination of Vitamin B12 in injection.
The Natural Science Foundations of China and Hebei Province, and a Visiting Scholar Foundation of the Key Laboratory at Hebei University supported this work. Thank you for the help of Professors Yang and Liu.