2.2.5. Liquid chromatography–mass s

2.2.5. Liquid chromatography–mass spectrometry (LC–MS and LC–MS/MS)

Although liquid chromatography coupled to UV–Vis has been the most common analytical method for determining ADF qualitatively and quantitatively, the spectra of many ADF are very similar, therefore many researchers have complemented the identification of ADF using mass detector. With PDA or UV–Vis detector systems, it is difficult to provide structural information for identification of ADF particularly in complex food matrices. The mass spectrometers are used to overcome spectral interventions of PDA/UV–Vis detectors not only to achieve high sensitivity in sample matrices but also structural information on the basis of the molecular mass and fragmentation pattern using tandem mass spectrometry (MS/MS). Among the ionization techniques compatible with liquid chromatography, the most successful for ADF studies have been electro spray ionization (ESI). As mentioned earlier, ADF are highly polar in nature, therefore, ESI is more suited for their ionization. The ionization efficiency of compounds depends on the matrix interferences present in sample and mobile phase. Most of the ADF could be effectively ionized using ammonium acetate and ammonium formate as buffers in negative ion mode. Ma, Luo, Chen, Su, and Yao (2006) have simultaneously determined fat and water soluble synthetic colorants in soft drink, delicious ginger, chilli powders and chilli spices by LC–PDA–MS. They have used positive/negative alternant scan mode for the simultaneous ionization of synthetic colorants. Gosetti, Gianotti, Polati, and Gennaro (2005) have studied degradation of Sunset Yellow in commercial beverage by exposing it to sunlight. The study used HPLC–MS to prove that the loss of color is not due to mineralization but due to the degradation process and the identified degradant may be a dimeric form of 5-amino-6-hydroxy-2-naphthalene sulfonate. Similarly, Carmoisine and Sunset Yellow containing aperitif was exposed to sunlight and analyzed by HPLC–DAD–MS/MS using C18column and a mixture of methanol and ammonium acetate as mobile phase. The experiment resulted in the formation of degradation impurities with naphthalene-based structures (Gosetti et al., 2008). Recently, Chen et al. (2014) have developed UFLC–MS/MS method for the analysis of seven food dyes in wine and soft drinks using C18 column and a mixture of ammonium acetate in acetonitrile and water as mobile phase. Zou et al. (2013) have added ammonium acetate and acetonitrile to the eluent in order to improve ionization efficiency of seven food dyes by ESI in negative ionization mode.