Deprotonated 2-Thiolimidazole Serves As a Metal-Free Electrocatalyst for Selective Acetylene Hydrogenation

Metal-free catalysts offer a desirable alternative to traditional metal-based electrocatalysts. However, metal-free catalysts, featuring defined active sites, rarely show activities as promising as metal-based materials. Here we report 2-thiolimidazole as an efficient metal-free catalyst for selective electrocatalytic hydrogenation of acetylene into ethylene. Under alkaline conditions, the sulfhydryl and imino groups of 2-thiolimidazole are spontaneously deprotonated into dianions. Deprotonation thus enriches the negative charges of pyridinic N sites in 2-thiolimidazole to enhance the adsorption of electrophilic acetylene through the sigma-configuration. Ethylene partial current densities show a volcano relationship with the negative charges of the pyridinic N sites in various imidazole derivatives. Consequently, the deprotonated 2-thiolimidazole exhibits an ethylene partial current density and faradaic efficiency competitive with metal-based catalysts like Cu and Pd. This work highlights the tunability and promising potential of metal-free molecules in electrocatalysis. Although metal-free catalysts, featuring defined active sites, represent alternatives to scarce or problematic metals, metal-free compounds rarely show activities as promising as metal-based materials. Now deprotonated 2-thiolimidazole is shown to serve as a metal-free electrocatalyst for selective acetylene hydrogenation and achieves competitive performances with metal-based catalysts.