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形式
powder
质量水平
组成
Dye content, 50%
λmax
566 nm
ε (消光系数)
≥18000 at 563-569 nm in H2O at 0.02 g/L
应用
diagnostic assay manufacturing
hematology
histology
储存温度
room temp
SMILES字符串
[Na+].[Na+].[O-]S(=O)(=O)c1cccc(c1)\N=N\c2ccc(\N=N\c3ccc(Nc4ccccc4)c5c(cccc35)S([O-])(=O)=O)c6ccccc26
InChI
1S/C32H23N5O6S2.2Na/c38-44(39,40)23-11-6-10-22(20-23)34-35-27-16-17-28(25-13-5-4-12-24(25)27)36-37-29-18-19-30(33-21-8-2-1-3-9-21)32-26(29)14-7-15-31(32)45(41,42)43;;/h1-20,33H,(H,38,39,40)(H,41,42,43);;/q;2*+1/p-2/b35-34+,37-36+;;
InChI key
XPRMZBUQQMPKCR-XGQONITOSA-L
一般描述
酸性蓝 113 是一种重氮染料,广泛用于纺织工业和制革厂。这种染料已被用于吸附和降解研究,用于纺织废水中产生的有毒中间体(如芳香胺)的脱色和矿化。
WGK
WGK 1
闪点(°F)
Not applicable
闪点(°C)
Not applicable
Biotechnology progress, 28(6), 1400-1408 (2012-08-29)
Bioreaction calorimetric studies of degradation of the dye acid blue 113 by Staphylococcus lentus are reported for the first time. The heat released during the dye degradation process can be successfully measured using reaction calorimeter. Power time and oxygen uptake
Microscopica acta, 86(4), 323-338 (1982-11-01)
Apart from the applicability of the tannic acid-phosphomolybdic acid-Levanol-Fast Cyanine 5RN method for the identification of muscle myosins in Carnoy-fixed tissues, this technique can also be applied on tissue sections fixed with formalin or carbodiimide. The use of carbodiimide as
Journal of hazardous materials, 186(1), 891-901 (2010-12-18)
A mesoporous carbon developed from waste tire rubber, characterized by chemical analysis, FTIR, and SEM studies, was used as an adsorbent for the removal and recovery of a hazardous azo dye, Acid Blue 113. Surface area, porosity, and density were
Journal of hazardous materials, 184(1-3), 499-505 (2010-09-14)
In this study, a synthesized cation exchange resin supported nano zero-valent iron (NZVI) complex forming NZVI-resin was proposed for the decoloration of an azo dye Acid Blue 113 (AB 113), taking into account reaction time, initial dye concentration, NZVI dose
Journal of hazardous materials, 118(1-3), 205-211 (2005-02-22)
The wastewater from textile dyeing industry is difficult to be treated successfully according to both high variability of composition and color intensity. To investigate the effects of reactor gap size and UV dosage on the decolorization of dye wastewater, a
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