This research explores the advanced application of nano-silica (nS) in concrete, emphasizing its significant role in improving the mechanical strength and longevity of concrete structures. Unlike prior studies on nS in concrete, this work goes beyond evaluating typical performance metrics such as compressive strength, water absorption, air permeability, and drying shrinkage, by also examining the effect on production costs. The study involved detailed experimental procedures, where concrete mixtures were prepared with varying water-to-binder (w/b) ratios of 0.33, 0.45, and 0.55, and nS contents of 0, 1, 3, and 5 percent by binder weight. The results indicate that a 3% nS admixture significantly boosts compressive strength and reduces both water and gas permeability, although it also leads to an increase in drying shrinkage. Furthermore, the cost analysis shows that even a small 1% addition of nS can raise production costs, underscoring the importance of balancing cost-effectiveness with performance improvements when considering nS for concrete applications.