Effect of zinc oxide (ZnO) nanoparticles (NPs), manganese dioxide (MnO₂) NPs and their blends on the yield and quality of bioethanol  produced from cofermentation of banana and potato wastes has been investigated. Thus, in this study, ZnO, MnO₂ NPs and their novel  blend were synthesized, characterized and employed as additives to the fermentation processes, and their effects on the yield and quality  of bioethanol produced from various blends of the organic wastes were evaluated. Potato peels (PP) and banana peels (BP) were  collected and prepared for sample characterization. Prepared samples were then pretreated using acid pretreatment method before  enzymatic hydrolysis, cofermentation and products analyses were carried out. Series of experiments were carried out using the feedstock  blends: 100 wt.%BP: 0 wt.%PP, 30 wt. %BP: 70 wt.%PP, 70wt.%BP: 30 wt.%PP, 50 wt. %BP: 50 wt.%PP and 0 wt. %BP: 100 wt.%PP.  The ZnO, MnO₂ and ZnO+MnO₂ NPs were added to the feedstock blends, and the blends without nanoparticles served as control  samples. Study results unveiled that the highest yield of bioethanol (29.72g/l) was obtained from the sample blend, 100wt%BP + 0wt.%PP  treated with ZnO NPs, and this was followed by 28.52g/l of bioethanol obtained from 50wt.%BP + 50wt.%PP sample blend treated with  ZnO and ZnO +MnO₂ NPs. It was also observed that the amount of bioethanol produced from addition of ZnO NPs to samples is higher  than those produced from control samples as well as from samples treated with MnO₂ and ZnO +MnO₂ NPs. This may be because ZnO  acts as a better catalyst, positively enhancing the enzymatic activity which accelerates the conversion of sugars into ethanol than MnO₂  NPs. Product analysis results further unveiled the effect of the nanoparticles on the quality of bioethanol produced. Results of this study  could enhance sustainability and economic viability of bioethanol production from organic wastes using nanoparticles.