Brilliant Blue FCF
Brilliant Blue FCF structure
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Common Name | Brilliant Blue FCF | ||
|---|---|---|---|---|
| CAS Number | 3844-45-9 | Molecular Weight | 792.848 | |
| Density | N/A | Boiling Point | N/A | |
| Molecular Formula | C37H34N2Na2O9S3 | Melting Point | 283 °C (dec.)(lit.) | |
| MSDS | Chinese USA | Flash Point | N/A | |
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Toxic effects of some synthetic food colorants and/or flavor additives on male rats.
Toxicol. Ind. Health 29(2) , 224-32, (2013) The objective of the present work was to evaluate the broadest toxic effect of some synthetic additives of colorants and/or flavors on different body organs and metabolic aspects in rats. A number of chemical food color and flavor additives are routinely adde... |
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Simultaneous cloud point extraction and spectrophotometric determination of carmoisine and brilliant blue FCF in food samples.
Talanta 84(1) , 240-3, (2011) A novel simultaneous cloud point extraction method for the determination of carmoisine and brilliant blue FCF by spectrophotometry has been developed. The method is based on the cloud point extraction of carmoisine and brilliant blue FCF from aqueous solution... |
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Triacontanol hormone stimulates population, growth and Brilliant Blue R dye removal by common duckweed from culture media.
J. Hazard. Mater. 182(1-3) , 525-30, (2010) 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 stimulation by adding triacontanol hormone to the cultures. In the va... |
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On the quantification of mixing in microfluidics.
J. Lab. Autom. 19(5) , 488-91, (2014) Methods for quantifying mixing in microfluidics have varied largely in the past, and various indices have been employed to represent the extent of mixing. Mixing between two or more colored liquids is usually quantified using simple mathematical functions ope... |
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Absorption of triphenylmethane dyes Brilliant Blue and Patent Blue through intact skin, shaven skin and lingual mucosa from daily life products.
Food Chem. Toxicol. 52 , 19-27, (2013) Currently, there is evidence of health risks of triphenylmethane dyes after systemic absorption. This paper investigates the fate of Brilliant Blue (BB) and Patent Blue (PB) after 24-h in vitro diffusion, firstly through intact and secondly through shaven pig... |
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Combined effects of sugarcane bagasse extract and synthetic dyes on the growth and bioaccumulation properties of Pichia fermentans MTCC 189.
J. Hazard. Mater. 183(1-3) , 497-505, (2010) Bioaccumulation of synthetic dyes viz. Acid Blue 93, Direct Red 28 and Basic Violet 3 by growing cells of yeast, Pichia fermentans MTCC 189 was investigated in growth media prepared from sugarcane bagasse extract. The maximum dye bioaccumulation was determine... |
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Analysis of retinal ganglion cell complex thickness after Brilliant Blue-assisted vitrectomy for idiopathic macular holes.
Curr. Eye Res. 38(1) , 180-4, (2013) The purpose of this study was to evaluate retinal ganglion cell complex (GCC) thickness changes in eyes undergoing Brilliant Blue-assisted macular hole surgery (MHS) using Fourier-domain optical coherence tomography (FD-OCT).This is a prospective, comparative... |
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Measurement of the thickness and volume of adherent cells using transmission-through-dye microscopy.
Pflugers Arch. 460(6) , 1097-104, (2010) Cell volume is one of the basic characteristics of a cell and is being extensively studied in relationship to a variety of processes, such as proliferation, apoptosis, fertility, or locomotion. At the same time, its measurement under a microscope has not been... |
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Paracentral retinal holes occurring after macular surgery: incidence, clinical features, and evolution.
Graefes Arch. Clin. Exp. Ophthalmol. 250(8) , 1137-42, (2012) To describe the incidence, clinical features, and evolution of paracentral retinal holes occurring after macular surgery.A retrospective non-randomized study of 909 patients operated on for either a macular hole (MH, n = 400 patients) or an epiretinal membran... |
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Blocking the P2X7 receptor improves outcomes after axonal fusion.
J. Surg. Res. 184(1) , 705-13, (2013) Activation of the P2X7 receptor on peripheral neurons causes the formation of pannexin pores, which allows the influx of calcium across the cell membrane. Polyethylene glycol (PEG) and methylene blue have previously been shown to delay Wallerian degeneration ... |