This data file contains the information about the figure 6,figure 7 a,figure 7 b figure 8, figure 9, figure 10, figure 11

Figure 6	Raman spectra of the TiNS/ PbO2/RVC obtained by anodic electrophoretic deposition a) calcined and b) non-calcined at 450 ºC.
Figure 7 a	Polarization curve by using coating 1) (TiNS /PbO2 / RVC) as anode after calcination at 450 ºC in 0.5 mol L-1 Na2SO4, pH=3.0. 2) (PbO2 / RVC) as anode in 0.5 mol L-1 Na2SO4, Experimental conditions: Potential sweep rate = 10 mV s-1 , temperature: 298 K.
	

Figure 7 b	Polarization curve by using novel coating 1) (TiNS /PbO2 / RVC) as anode in an electrolyte 10 ppm R.B-5 dye in 0.5 mol L-1 Na2SO4, pH=3.0. 2) (PbO2 / RVC) as anode after calcination at 450 ºC in an electrolyte 10 ppm R.B-5 dye in 0.5 mol L-1 Na2SO4, pH=3.0, Experimental conditions: Potential sweep rate = 10 mV s-1, Temperature: 298 K.

Figure 8	Electrochemical remediation of RB-5 dye by ¦) RVC, ?) Photoassisted fenton using Iron oxide on activated alumina support [49], ?) RVC/PbO2, and ?) calcined TiNS/PbO2/RVC.  
Figure 9	Electrochemical remediation kinetics of RB-5 dye by ¦) RVC, ?) Photoassisted fenton using Iron oxide on activated alumina support [49],?) RVC/PbO2, and?) calcined TiNS/PbO2/RVC.
Figure 10	Photocatalytic remediation of RB-5 dye by ?) RVC ?) calcined TiNS/PbO2/RVC 
Figure 11	Photocatalytic remediation kinetics by ?) RVC ?) calcined TiNS/PbO2/RVC