brilliant blue fcf melting point

[18]: 1.3g (5.27mmol, 1.34mL) of aluminum tri-sec-butylate (ASB) and 1.8mL of isopropanol were mixed and stirred in a closed vessel until a clear homogenous solution was formed. The diammonium salt has CAS number 2650-18-2. Correspondence to Our solution is based on these dyes. Brilliant blue FCF is an approved food colorant and pharmacologically inactive substance for drug formulations in the EU and the United States. Boyce MC. Accessibility Standard soda-lime silicate microscope slides (25.476.2mm, Marienfeld) were used for supportive and comparative purposes. 1. Melting point. Safety limit for foods and drugs: 0.1mg/day per kg body weight. : Curcumin, allura red, carmine, brilliant blue FCF and tartrazine were from Sigma-Aldrich. Toxic effects of some synthetic food colorants and/or flavor additives on male rats. Enabling the artist to coat finished pieces without concern about the integrity of the artwork, which otherwise would have to go through a high temperature glaze firing. Dye solutions were prepared by dissolving 10mg of dye (or dyes mixtures) in 0.5ml DMSO. The solution we offer here relates, as a first step, to colored glazing of ceramic and glassy substrates. Among the colorants used are brilliant blue FCF replacing the toxic cobalt blue, curcumin replacing the toxic cadmium sulfide yellow, and a mixture of carmine and allura-red replacing the toxic cadmium selenide red. 1. 1c) and glutamic acid (Fig. Seven antioxidants and 9 flavoring agents were evaluated in carbonated sparkling water. It has been added to the comparison table. Mater. Brilliant Blue FCF | C37H34N2Na2O9S3 | ChemSpider Hazard. https://doi.org/10.1016/j.jclepro.2017.10.074, Turner A (2019) Heavy metals in the glass and enamels of consumer container bottles. Figure 1 shows pictures of the colored solgel glazes (denoted dye@SG) and of the colorless glazes on porcelain discs and, for comparison, on standard glass slides. Brilliant Blue FCF has the appearance of a reddish-blue powder. Cross-section view (Fig. Food additives are required to be labeled on the package of food. The mass spectrometer worked as the secondary separation tool. Brilliant Blue FCF has the appearance of a reddish-blue powder. were brushed-on with a freestyle manner. Sorbitol, Maltitol, D-Xylitol, D-Mannitol, Aspartame, Acesulfame potassium, Sucralose, Glycerol, Flavoring, Sodium carboxymethyl cellulose, Palm wax, Sodium alginate, BHT, Brilliant blue FCF, Grape powder (oxidized starch, citric acid, flavoring, grape skin pigment), Vitamin C, Hydropropyl methylcellulose, Citric acid, Cellulose, Grape flavoring, Magnesium stearate, Ferric pyrophosphate, Folic acid, Vitamin B12 (sodium citrate, citric acid, vitamin B12), Tartaric acid, L-Glutamic acid, Sodium Lactate, DL-Malic acid, Starch acetate, Flavoring, Xanthan gum, Palm way, Starch sodium succinate, Titanium dioxide, Brilliant blue FCF. The vertical line indicates the border between the substrate and the coating. (d) Brilliant blue FCF@SG. The emission spectra of the fluorescent curcumin@SG glazes coated on a porcelain disc and on a glass slide due to excitation at 421nm, are plotted in Fig. Reference Material Type. Google Scholar, Akarsu M, Burunkaya E, Tunali A, Tams Selli N, Arpa E (2014) Enhancement of hybrid sol-gel coating and industrial application on polished porcelain stoneware tiles and investigation of the performance. The mass spectrometer was operated at ESI positive (3.5 kV) and negative (2.5 kV) mode. 10 g 25 g 100 g 1 kg Pack. Hours of Operation: 8:00 - 17:00 (EST)For other hours Isolation window 27 amu was applied for m/ z 100 to 500 in every 25 amu increment (eg. SYNONYM Brilliant Blue FCF, C.I. In addition, a scratch test was performed by a sharp object resulting with no cracking or other stress-related effects. Brilliant Blue FCF (3844-45-9) - Macsen Labs J Non Cryst Solids 74:395406. Candy and carbonated sparkling water were used as blank sample for the evaluation of LODs for 79 colorants. The compliance assessment on the labeling of food additives is a hard job, because there are nearly thousand legal food additives can be used in food, and countless illegal additives must also deal with. Dulcin (99%) and acid green 3 (unknown purity) were form Kanto-Kasel LTD. (Tokyo, Japan). 182(1-3) , 525-30, (2010). https://doi.org/10.1039/c0cs00106f, Schottner G, Kron J, Deichmann A (1998) Industrial Application of Hybrid Sol-Gel Coatings for the Decoration of Crystal Glassware J Sol-Gel Sci Technol 13:183187. J Sol-Gel Sci Technol 432(43):227236. PubMedGoogle Scholar. Preservatives were tested in pork jerky matrix and obtained LODs between 0.1 and 1 ppm. [11], Brilliant blue FCF dye within beverages itemssuch as sodacan be used in the blue bottle experiment. Furthermore, in general, plain (uncolored) solgel coatings on porous ceramics are by far less explored than on glasssome representative examples are [15,16,17]. Received 2021 Mar 18; Revised 2021 May 21; Accepted 2021 May 31. This study developed a non-targeted data acquisition screening method based on liquid chromatography high resolution mass spectrometry (HRMS) in which a precursor ion and two product ions of each analyte are able to be recorded. The chemical formation is C37H34N2Na2O9S3. 42090) Downloads / MSDS General information Certificates of Analysis Type analysis Brilliant blue FCF (C.I. We also had in mind simplifications aimed to make the procedure non-chemist friendly. Simultaneous determination of antioxidants, preservatives and sweeteners permitted as additives in food by mixed micellar electrokinetic chromatography. A non-targeted method called variable data independent acquisition (vDIA) was developed for comprehensive sample detection of 120 additives in this study. If material is not included in the articles Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. Fluorescence spectroscopy was conducted with Edinburgh Instruments FLS920 fluorometer. J Sol-Gel Sci Technol 59:456474. Colour Index. Articles of Brilliant Blue FCF are included as well. Determination of 20 synthetic dyes in chili powders and syrup-preserved Anyone you share the following link with will be able to read this content: Sorry, a shareable link is not currently available for this article. Thirty three foods were tested utilizing the DIA method. Synonyms: Acid Blue 9, Alphazurine FG, Erioglaucine disodium salt, Brilliant Blue FCF (Blue 1) is an organic compound classified as a Triarylmethane dye, reflecting its chemical structure. Therefore, nontargeted method utilizing DIA is able to screen a broad list of analyte, and also suitable for food additive screening in which the detection level is around ppm level. Dyes with unknown purity of 4-amino carminic acid, solvent yellow 21, solvent orange 62, solvent red 8 and solvent yellow 16 were from BOC Sciences (Shirley, NY, US). Uses advised against Food, drug, pesticide or biocidal product use. RP-HPLC-DAD analysis of phenolic compounds in pomace extracts from five grape cultivars: evaluation of their anti-foxidant, antiradical and antifungal activities in orange and apple juices. Synonym(s): Erioglaucine disodium salt, Acid Blue 9, Alphazurine FG, FD&C;BLUE No. Brilliant Blue FCF. Melting Point (C) Physical Form. Brilliant Blue FCF is a colorant for foods and other substances to induce a color change. Brilliant Blue FCF has the appearance of a reddish-blue powder. Visit ChemicalBook To find more BRILLIANT BLUE FCF Bright Blue() information like chemical properties,Structure,melting point,boiling point,density,molecular formula,molecular weight, physical properties,toxicity information,customs codes. Our team of R&D Experts and Scientists have expertise in all areas of research of Lab Chemicals, Nano Technology, Life Science, Custom Synthesis, Chromatography, and many others. It is seen that the curcumin, in both entrapped and dissolved forms, displays a broad emission spectrum, and that the emission maxima positions are shifted from each other, i.e., 510nm for the curcumin@SG coated porcelain, 525nm for the curcumin@SG coated glass and 569nm for curcumin in DMSO-H2O solution. Methods focused on the sample pretreatment and cleanup were applied in accurate determination of preservatives and artificial sweeteners in juice by HPLC to remove matrix interference prior to chromatographic determination [10]. [M + HNa], [MNa], [M+H2Na]+, [M+H3Na2], [M+H3Na], [MCl]+ and [M + HCa] might happen depended on the chemicals and the pH of sample solution and eluent. A detection database list of 120 additives included 79 colorants, 13 sweeteners, 12 preservatives and 7 antioxidants was established. Cu(II) Chlorin e4 and Cu(II) Chlorin e6 observed LODs as 20 ppm in this study, but a targeted MRM method reported 20 ppb as the LODs and 50 ppb as the LOQs [20]. https://doi.org/10.1007/s10853-011-5981-y, Akkopru B, Durucan C (2007) Preparation and microstructure of sol-gel derived silver-doped silica. Finally, qualitative chemical durability tests were performed on the coated surfaces by rinsing them with various solvents (acetone, ethanol, isopropanol, and soap water) at room temperature. : 3844-45-9 1.2 Relevant identified uses of the substance or mixture and uses advised against Identified uses : Laboratory chemicals, manufacture of substances. Mass spectrometer worked in DIA mode and the parameters were as following. This work is focussed on assessing the potentialities of Lemna minor (L.) for the treatment of reactive dyes polluted wastewaters and investigating the possibility of bioremoval performance stimulatio Get all suppliers and price by the below link: Reference only. Multiclass determinations of additives in a single run were developed in recent year. terms and conditions. It is soluble in water, and the solution has a maximum absorption at about 628 nanometers. Signal was required to have S/N ratio larger than 3 or at least 5 subsequent scans presented (in some case S/N ratio can not be calculated due to S/N ratio = infinity). Colorants were tested in candy and carbonated sparkling water for LODs evaluation. Brilliant Blue FCF CAS: 3844-45-9 Ref. Then, the cut discs were evenly dried for a week in the open air by placing them between two wooden boards. CAS No. 2.6. An antioxidant used in animal feed. : HY-D0915 CAS No. You can also browse global suppliers,vendor,prices,Price,manufacturers of BRILLIANT BLUE FCF Bright Blue(). For measuring the absorbance spectra of the glazes, we used the transparent glass slides coated samples and compared the resulting spectra to that of the free dye in a solution of DMSO-H2O (1:1) (Fig. Brilliant blue FCF and similar dyes such as brilliant blue G are inhibitors to purinergic receptorsreceptors that are responsible for inflammatory responses and other cell process. Reference standards including (name and purity%) allura red AC (98%), alizarin (95%), alizarin green (95%), amaranth (95%), auramine O (95%), azorubine (95%), benzyl violet 4B (95%), brilliant blue FCF (95%), carminic acid (95%), chrysoidine G (95%), citrus Red 2 (95%), crocein orange G (95%), curcumin (95%), diethyl yellow (95%), erythrosine (95%), fast green FCF (95%), indigo carmine (95%), light green SF yellowish (95%), lissamine green B (95%), malachite green (95%), metanil yellow (95%), methyl yellow (95%), -naphthol orange (95%), naphthol yellow S (95%), new coccin (95%), orange G (80%), orange II (95%), para red (95%), patent blue V (95%), phloxine (95%), ponceau SX (98%), quinoline yellow WS (95%), rhodamine B (95%), rose Bengal (95%), scarlet GN (95%), solvent green 3 (95%), Sudan black B (95%), Sudan I (95%), Sudan II (95%), Sudan III (95%), Sudan IV (95%), Sudan orange G (95%), Sudan red 7B (95%), Sudan red G (95%), Sudan red B (95%), sulforhodamine B (95%), sunsent yellow FCF (95%), tartrazine (95%), xylene fast yellow 2G (60%), pigment orange 5 (98%), disperse orange 37 (96%), oil orange SS (98%), red 2G (98%), fumaric acid (99%), succinic acid (99%), L-glutamic acid (99%), tartaric acid (99%), sodium lactate (99%), DL-malic acid (99%), caffeine (98%), L-theanine (98%), glucono--lactone (98%), propyl gallate (98%), nordihydroguaiaretic acid (97%), 4-hexylresorcinol (98%), ethoxyquin (99%), methyl p-hydroxybenzoate (99%), ethyl p-hydroxybenzoate (99%), propyl p-hydroxybenzoate (99%), butyl p-hydroxybenzoate (99%), benzyl 4-hydroxybenzoate (99%), phenyl 4-hydroxybenzoate (98%), n-heptyl 4-hydroxybenzoate (99%), natamycin (99%), sorbic acid (99%), aspartame (98%), neohesperidin dihydrochalcone (98%), neotame (98%), rebaudioside A (96%), rebaudioside B (95%), sucralose (98%), L-cysteine hydrochloride (98%) and cyclamate (100%, SUPELCO) were from SigmaAldrich. Brilliant Blue FCF manufacturer,supplier | Cas:3844-45-9 - pharmacdmo.com Aluminum tri-sec-butylate (ASB, Alfa Aesar), 3-glycidyloxy-propyltrimethoxysilane (GPTMS, Chem-Impex Intl), phosphoric acid 85% (Fluka), dimethylsulfoxide (DMSO, Bio-Lab), acetylacetone (Alfa Aesar) and isopropanol (Acros) were used as received. Application. The column was maintained at 35 C and the flow rate was set at 0.5 mL/min. [Brilliant Blue FCF] .We manufacture and distribute chemical reagents for research use only or various antibodies. A detection database list of 120 additives included 79 colorants, 13 sweeteners, 12 preservatives and 7 antioxidants was established. A colorless solgel coated glass slide, which has a low absorbance (up to 0.06 a.u. 2b and 3b) which are attributed to a common form of alumina derived from the solgel process (see XRD analysis discussed below). In fact, that troublesome situation exists not only for artistic and decorative applications of glass but is a general problem of the colored glass industry in general, from the points of view of atmospheric fall-out of metals around glass manufacturing areas [2] polluting air and soil [3]; from the point of view of glass dumps direct pollution of soils and water resources [4]; from the point of view of the alarming reports of increased cancer incidence around glasswork sites [5]; and more [6]. This method has a wide potential as a generic solution for safety, health and environmental. [21], Scientists are performing studies to better understand the effects of brilliant blue FCF during vein graft explantation. [14], For similar reasons, brilliant blue FCF is also being utilized in hemostatic medical devices, most notably the Hemopatchdesigned to be placed on bleeding tissues and coagulate the blood. Not for use in . https://www.jmbglass.com/inmurano-eu-pdf. Sweeteners (rebaudioside A) and flavoring agents (malic acid and fumaric acid) were found the most under declared additives. This early demonstration evolved over the years to a useful tool in materials for optics and found plenty of applications, which are described in numerous publications [10,11,12]. Brilliant Blue FCF Molecular formula C37H34N2Na2O9S3 Allura Red AC is a red azo dye. Additives used in food commonly include colorants, sweeteners, preservatives, antioxidants, and flavoring agents. 5c) represents the organic constituent of the coating. Going from the deepest end of the crater to the top surface of the coating, it is seen that there is a steep decay in the aluminum counts at about 60 microns, a point that can be referred to the porcelain surface, the remaining 240 microns of the path is attributed to the coating thickness. J Sol-Gel Sci Technol 102, 562573 (2022). Quality Level. However, lactate (Fig. A full scan form m/z 701,050 was conducted, and then precursors in wide windows were selected to obtain 21 MS/MS spectra. Offering convenient and efficient recyclability of colored glasses into a reusable colorless glass by heating to organics-decomposition temperatures. It usually comes as a sodium salt but can also be used as both calcium and potassium salts. It is a triphenylmethane colour. Jia W, Ling Y, Lin Y, Chang J, Chu X. https://doi.org/10.1007/S11356-009-0122-8, Article The ionization mode, detection ions, retention time and LODs of target compounds were determined. Molecular Weight:792.84800 Melting point:283C Boiling point: Flash point: Density: Stability:Stable. [10] Due to its ability to retain color for long periods of time, brilliant blue FCF outperforms other dye tracers. All substrates were rinsed thoroughly in distilled water and dried in an oven before use. Organic and bio-organic dyes, on the other hand, provide an extremely rich pallet of colors, shades, and hues which are safe for human use. Brilliant blue FCF is sometimes referred to as FD&C Blue No.1. Being fluorescent, curcumin also demonstrates the optical effects options opened by the use of safe organic colorants. 4 (a - before, b - after coating), confirms the aluminosilicate similarity between the substrate and the coating, and also shows the carbon of the glycocidoxy organic chains. Store the silicate and aluminate precursors in closed vessels, refrigerated. 3c) obtained by cutting the disc shows a near-perfect coating with a typical texture repeating itself quite homogeneously, reflecting sub-micron heterogeneity of phases, including some alumina crystallinity. Chemosphere 195:825830. Chemical Composition. Melting point. Acid Blue 9, Disodium Salt;AB 9;Blue 1206;C.I. Known under various commercial names, it is a colorant for foods and other substances. It is usually a disodium salt. (a) 77cm tile under normal light (left) and its luminescence under UV light (right). I agree to the This pallet of colors is by far richer than the current library of high-temperature resistant colorants and pigments, including the safe ones. They can be found mainly in ice creams and other dairy products, peas, and drinks. Analytical performance parameters. HHS Vulnerability Disclosure, Help (a) 3D Optical profilometer image of brilliant blue FCF@SG coated porcelain. 1.0mL of the sol solution was transferred to a screwed capped vial and mixed with 50L solution of the chosen dye solution. aDepartment of Food Science, National Taiwan Ocean University, 2 Beining Road, Keelung City 20224, Contact angle measurements were performed with OCA 15EC DataPhysics. Interestingly, the addition of the colorants to the coating renders the surface even smootherwe attribute this added effect to the surfactant nature of the colorants, as evident from their structures (Scheme 1). Some colorants such as tartrazine (in sample 18, red candy in appearance) and Brilliant blue FCF (in sample 27, white mints in appearance) were labeled in product package, but not detected. (c) Rhodamine 6G@SG on porcelain disc under normal light (left) and its luminescence under UV light (right). Determination of Sudan dye residues in eggs by liquid chromatography and gas chromatographymass spectrometry. For the preparation of the beads, the coating stage was carried out in a two sides steps: one side was coated first, then allowed to dry at room temperature, then baked at 80 degrees for 12hours, and then the other side of the bead was coated and processed in the same way. than the above, please contact us via the inquiry form. For example, no-calorie sweetener rebaudioside A, about 150400 times sweeter than sugar, was found in some soda. If the revision of product standards and packaging standards has been made, there is a case where the actual product specifications and images are different. Blue pigments must possess many chemical traits, including pi-bond conjugation, aromatic rings, heteroatoms and heteroatom groups, and ionic charges in order to absorb low energy red light. However, due to the normal sample preparation and the neglect of matrix effects, DIA offered higher LODs for most compounds compared to traditional targeted MRM method. Resolution was set at 70,000 (defined at m/z = 200 and was set at full width at half maximum, FWHM). [1] It is classified as a triarylmethane dye and is known under various names, such as FD&C Blue No. Name: Food Blue 002 . SYNONYMS CI Food Blue 2, FD&C Blue No.1, CI (1975) No. The recommended procedure described in the Experimental Details section forms an aluminosilicate network by the co-polymerization of the aluminum oxide precursor, ASB, with the silicate precursor, GPTMS, which is decorated with epoxy handles (the glycidyloxy groups) for better adhesion, and with kaolin particles, an inorganic thickening and thixotropic agent, the role of which is to improve the leveling of the coating and eliminate surface defects from the application process itself. Simultaneous extraction and analysis of preservatives and artificial sweeteners in juices by salting out liquid-liquid extraction method prior to ultra-high performance liquid chromatography. Mixed solutions were prepared at 1, 5 or 10 g/mL in 50% methanol solution to generate target list of additives. ; Acid Blue 9, disodium salt; E133; C.I. CAS Hamelin E, Bragg W, Shaner RL, Swaim LL, Johnson RC. Triphenylmethane dyes are composed of three hydrocarbon rings linked to a central carbon atom 1. It is usually found as a red-blue powder. For research use or further manufacturing use only. Candies, beverages and soy sauces in total 33 samples were purchase from local market. Application. In 1984, the . 6. 2a) was showed in Fig. Stay updated with the latest chemical industry trends and innovations. http://creativecommons.org/licenses/by-nc-nd/4.0/, https://www.jfda-online.com/cgi/editor.cgi?article=3366&window=additional_files&context=journal, https://ec.europa.eu/food/sites/food/files/plant/docs/pesticides_mrl_guidelines_wrkdoc_2017-11813.pdf, 2-Methoxy-4-nitroaniline (Fast red B Base), 4-Hydroxymethyl-2,6-di-tert-butylphenol (HMBP), Citric acid, Flavoring (Gum arabic, Sucrose acetoisobutyrate, Medium-chain triglyceride), Sodium citrate, Vitamin C, Carithamine, Vitamin B6, Rebaudioside A, DL-Malic acid, Fumaric acid, Glucono--Lacton, Sodium Lactate, Citric acid, Gum arabic, Flavoring, Glycerol, Vitamin C, Vitamin E, Stevia, Medium-chain triglyceride, Glycerol ester of wood rosin, Carotene, sodium carbonate, Rebaudioside A, DL-Malic acid, Fumaric acid, Glucono--Lactone, L-Glutamic acid, Sodium Lactate, Tartaric acid, Flavoring, Citric acid, Vitamin C, Tartaric acid, Sodium citrate, Allura red AC, Brilliant blue FCF, Tartaric acid, Glucono--Lactone, Sodium Lactate, DL-Malic acid, Fumaric acid, Succinic acid, Allura red AC, Brilliant blue FCF, Flavoring, DL-Malic acid, Caramel colors, Stevia, DL-Malic acid, Fumaric acid, Glucono--Lactone, L-Glutamic acid, Sodium Lactate, Tartaric acid, Succinic acid, Citric acid, flavoring, Sodium erythorbate, Sodium metaphosphate, Sodium polyphosphate, Anthocyanin, Sodium pyrophoaphate, Sodium Lactate, DL-Malic acid, Fumaric acid, Tartaric acid, Apple flavoring, Caramel colors, Citric acid, Natural apple flavoring, Rebaudioside A, DL-Malic acid, Fumaric acid, Glucono--Lactone, Sodium Lactate, Citric acid, flavoring, Anthocyanin, Sodium erythorbate, Sodium citrate, Sodium metaphosphate, Sodium polyphosphate, Sodium pyrophoaphate, DL-Malic acid, Fumaric acid, Glucono--Lactone, Sodium Lactate, Succinic acid, Citric acid, Sodium citrate, Vitamin C, Flavoring, Acesulfame potassium, Aspartame, Beta-carotene, Aspartame, Acesulfame potassium, Fumaric acid, Sodium Lactate, Grape falvoring, Citric acid, Grape skin pigment, Flavoring, Citric acid, Erythritol, Vitamin C, DL-Malic acid, Monosodium L-aspartate, Sucralose, Acesulfame potassium, Vitamin B1, Vitamin B2, Vitamin B6, DL-Malic acid, Acesulfame potassium, Sucralose, Sorbitol, Aspartame, Acesulfame potassium, Malic acid, Grape flavoring, Magnesium stearate, Silicon dioxide, Erythrosine, Brilliant blue, Tartaric acid, DL-Malic acid, Sodium Lactate, Aspartame, Acesulfame potassium, Erythrosine, Brilliant blue FCF, Sorbitol, Aspartame, Acesulfame potassium, Malic acid, Soda flavoring, Magnesium stearate, Silicon dioxide, Brilliant blue, DL-Malic acid, Fumaric acid, Sodium Lactate, L-Glutamic acid, Aspartame, Acesulfame potassium, Brilliant blue FCF, Sorbitol, Aspartame, Acesulfame potassium, Peach flavoring, Malic acid, Magnesium stearate, Silicon dioxide, Erythrosine, DL-Malic acid, Sodium Lactate, Succinic acid, Aspartame, Acesulfame potassium, Erythrosine, Sorbitol, Acesulfame potassium, Sucralose, Magnesium stearate, Flavoring, DL-Malic acid, Citric acid, Allura red AC, DL-Malic acid, Acesulfame potassium, Sucralose, Allura red AC, Sorbitol, Acesulfame potassium, Sucralose, Magnesium stearate, Flavoring, Lactic acid, Calcium lactate, Indigo carmine, Sodium Lactate, Acesulfame potassium, Sucralose, Indigo carmine, Sorbitol, Acesulfame potassium, Sucralose, Flavoring, Magnesium stearate, Brilliant blue FCF, Aspartame, Acesulfame potassium, Sucralose, Brilliant blue FCF, Isomalt, Citric acid, Lactic acid, Flavoring, Sucralose, Tartrazine, Brilliant blue FCF, Sodium Lactate, Sucralose, Allura red AC, Tartrazine, Brilliant blue FCF, Isomalt, Flavoring, Citric acid, DL-Malic acid, Sucralose, Acefulfame potassium, Allura red AC, Tartrazine, DL-Malic acid, Sucralose, Acesulfame potassium, Allura red AC, Isomalt, Citric acid, Flavoring, Sucralose, Tartrazine, Isomalt, Aspartame, Acefulfame potassium, Flavoring, Citric acid, Beta-carotene, Isomalt, Aspartame, Acefulfame potassium, Flavoring, Curcumin, Brilliant blue FCF, Aspartame, Acesulfame potassium, Curcumin, Brilliant blue FCF, DL-Malic acid, Starch acetate, Flavoring, Sodium citrate, Xanthan gum, Titanium dioxide, Starch sodium succinate, Palm wax, Sunset yellow FCF, Allura red AC, Brilliant blue FCF, DL-Malic acid, Fumaric acid, Tartrazine, Sunset yellow FCF, Allura red AC, Brilliant blue FCF, Lactic acid, DL-Malic acid, Citric acid, Flavoring, Curcumin, Lactic acid, DL-Malic acid, Citric acid, Flavoring, Betarubin.