On this article, we report a speedy, ambient microdroplet-driven synthesis that instantly converts homogeneous options of metallic precursors into bimetallic nanorods inside minutes. Utilizing platinum(II) acetylacetonate as a mannequin precursor, we exhibit the one-step, reductant-free formation of platinum nanorods. Moreover, this technique is prolonged to blended options of platinum(II) acetylacetonate and copper(II) acetate, enabling the first-time synthesis of platinum–copper bimetallic nanorods through ambient microdroplets from easy salt precursors. This facile synthesis proceeds with out further chemical decreasing brokers and affords almost quantitative conversion, highlighting the sustainability and effectivity of ambient microdroplet chemistry for creating anisotropic, high-surface-area nanostructures. The ensuing platinum and platinum–copper nanorods characteristic distinctive bimetallic junctions and enhanced floor area-to-volume traits. When evaluated for electrocatalytic nitrate discount, these nanorods exhibit environment friendly ammonia manufacturing, underscoring the potential of this speedy and sustainable artificial strategy for environmentally related catalytic functions. Whereas these outcomes set up a promising platform for environmentally related catalysis, additional optimization of catalyst composition is required to understand sensible functions.
