Nickel-palladium bimetallic nanocrystallite supported mesoporous silica/silica nanoparticles (MSPs/MSNPs) made at a controlled ratio of Pd/Ni via organotrialkoxysilane mediated reduction of palladium cations are reported. The organotrialkoxysilane serve as a template for the stabilization and formation of bimetallic Pd-Ni nanocrystallite within MSPs/MSNPs that are characterized by TEM, EDX, HR-SEM, HR-MS, XRD, BET and Elemental mapping analysis, kinetic analysis for degradation of both cationic and anionic dyes, i.e., rhodamine B and congo red, respectively. The nanocrystallite inserted MSNPs of particle diameter 200 nm justify faster degradation with rate constant to the order of 6.9 x10-2s-1 as compared to that for MSPs of 50 µm to the order of 3.2 x10-2 s-1 for 15 ppm Rh B within 50 s as compared to that for mesoporous silica of 50 µm within 110 s under similar conditions with analogous observation for the degradation of congo red. Heterogeneous support is fully recyclable and shows 100% catalytic activity even after five subsequent applications. The degradation dynamics have further been evaluated based on fluorescent spectra and HR-MS analysis.
Keywords: BET analysis; Bimetallic nanocrystallite inserted mesoporous silica nanoparticles; Congo red; EDX analysis; Rhodamine B; TEM analysis; fluorescence imaging of toxic dye; mapping and HR-MS.