E110: Sunset yellow  3


               chromatography’, Chen Q C, Mou S F, Hou X P, Riviello J M, Ni Z M. Journal of
               Chromatography A (1998) 827(1), 73–81.
             8 ‘Separation and determination of dyes by ion-pair chromatography’, BerzasNevado J J,
               GuiberteauCabanillas C, ContentoSalcedo A M. Journal of Liquid Chromatography &
               Related Technologies (1997) 20(18), 3073–3088.
             9 ‘A comparison of three spectrophotometric methods for simultaneous quantitation of
               mixtures E102 and E110 food additives’, GarciaPenalver L, SimalLorano J,
               LopezHernandez J. Spectroscopy Europe (1999) 11(1), 8–12.
            10 ‘Determination of colourant matters mixtures in foods by solid-phase spectrophotom-
               etry’, Capitan F, CapitanVallvey L F, Fernandez M D, deOrbe I, Avidad R. Analytica
               Chimica Acta (1996) 331(1), 141–148.
            11 ‘Spectrophotometric determination of single synthetic food colour in soft drinks using
               ion-pair formation and extraction’, Lau O W, Poon M M K, Mok S C, Wong F M Y, Luk
               S F. International Journal of Food Science and Technology (1995) 30(6), 793–798.
            12 ‘Simultaneous determination of the colorants tartrazine, ponceau 4R and sunset yellow
               FCF in foodstuffs by solid phase spectrophotometry using partial least square multivariate
               calibration’, CapitanVallvey L F, Fernandez M D, deOrbe I, Avidad R. Talanta (1998)
               47, 861–868.
            13 ‘First-derivative spectrophotometric determination of Ponceau 4R, Sunset Yellow and
               tartrazine in confectionery products’, Sayar S, Ozdemir Y. Food Chemistry (1998)
               61(3), 367–372.
            14 ‘Simultaneous spectrophotometric determination of mixtures of food colorants’, Ni Y G,
               Gong X F. Analytica Chimica Acta (1997) 354(1–3), 163–171.
            15 ‘Resolution of ternary mixtures of Tartrazine, Sunset Yellow and Ponceau 4R by
               derivative spectrophotometric ratio spectrum-zero crossing methods in commercial
               foods’, BerzasNevado J J, RodriguezFlores J, GuiberteauCabanillas C, VillasenorLlerena
               M J, ContentoSalcedo A M. Talanta (1998), 46(5), 933–942.
            16 ‘Method development and validation for the simultaneous determination of dyes in food
               stuffs by capillary zone electrophoresis’, BerzasNevado J J, GuiberteauCabanillas C,
               ContentoSalcedo A M. Analytica Chimica Acta (1999) 378(1–3), 63–71.
            17 ‘Simultaneous determination of synthetic food colourings and preservatives in bever-
               ages by capillary zone electrophoresis’, Wang W, He J H, Xu Z, Chen H M. Fenxi Ceshi
               Xuebao (1998) 17(5), 72–75. [Chinese]
            18 ‘High-performance capillary electrophoretic analysis of synthetic food colorants’, Kuo
               K L, Huang H Y, Hsieh Y Z. Chromatographia (1998) 47(5/6), 249–256.
            19 ‘Determination of synthetic colours in confectionery by micellar electrokinetic capillary
               chromatography’, Thompson C O, Trenerry V C. Journal of Chromatography A (1995)
               704(1), 195–201.
            20 ‘Simultaneous determination of Amaranth and Sunset Yellow by ratio derivative
               voltammetry’, Ni Y, Bai J. Talanta (1997) 44, 105–109.
            21 ‘Square wave adsorptive voltammetric determination of sunset yellow’, Nevado J J B,
               Flore J R, Llerena M J V. Talanta (1997) 44, 467–474.
            22 ‘A flow-through sensor for the determination of the dye Sunset Yellow and its subsidiary
               Sudan 1 in foods’, Valencia M C, Uroz F, Tafersiti Y, Capitan-Vallvey L F. Quimica
               Analytica (2000) 19(3), 129–134.