| 1 |
Ultrasensitive molecularly imprinted electrochemical sensor based on magnetism graphene oxide/beta-cyclodextrin/Au nanoparticles composites for chrysoidine analysis
Wang XJ, Li XJ, Luo CN, Sun M, Li LL, Duan HM
Electrochimica Acta, 130, 519, 2014 |
| 2 |
Removal and recovery of Chrysoidine Y from aqueous solutions by waste materials
Mittal A, Mittal J, Malviya A, Gupta VK
Journal of Colloid and Interface Science, 344(2), 497, 2010 |
| 3 |
Determination of thermodynamic parameters for the cloud point extraction of different dyes using TX-100 and TX-114
Purkait MK, DasGupta S, De S
Desalination, 244(1-3), 130, 2009 |
| 4 |
Cloud point extraction and flame atomic absorption spectrometry combination for copper(II) ion in environmental and biological samples
Shokrollahi A, Ghaedi M, Hossaini O, Khanjari N, Soylak M
Journal of Hazardous Materials, 160(2-3), 435, 2008 |
| 5 |
Adsorption of Chrysoidine R by using fly ash in batch process
Matheswaran M, Karunanithi T
Journal of Hazardous Materials, 145(1-2), 154, 2007 |
| 6 |
Performance of TX-100 and TX-114 for the separation of chrysoidine dye using cloud point extraction
Purkait MK, DasGupta S, De S
Journal of Hazardous Materials, 137(2), 827, 2006 |
| 7 |
Semiconductor-mediated photocatalytic degradation of an azo dye, chrysoidine Y in aqueous suspensions
Qamar A, Saquib M, Muneer A
Desalination, 171(2), 185, 2005 |
| 8 |
Titanium dioxide mediated photocatalytic degradation of two selected azo dye derivatives, chrysoidine R and acid red 29 (chromotrope 2R), in aqueous suspensions
Qamar M, Saquib M, Muneer A
Desalination, 186(1-3), 255, 2005 |
| 9 |
Adsorption behavior of chrysoidine dye on activated charcoal and its regeneration characteristics by using different surfactants
Purkait MK, Gusain DS, DasGupta S, De S
Separation Science and Technology, 39(10), 2419, 2004 |
