An efficient single atom catalysts Os/P3C sheet for ammonia borane dehydrogenation

Ammonia borane (NH3BH3, AB) has been considered to be a promising chemical hydrogen storage material. Based on density functional theory, a series of transition metal atoms supported P3C (P3C_O) sheet is systematically investigated to screen out the most promising catalyst for dehydrogenation of AB. The results indicate that the Os/P3C and Os/P3C_O could be an efficient single atom catalyst (SACs) and the stepwise reaction pathway with free energy barrier of 2.07 and 1.54 eV respectively. Remarkably, the rate constant further quantitatively confirmed the real situation of the first step of dehydrogenation of AB on the Os/P3C and Os/P3C_O substrates. We found that kf1 at 400 K is equivalent to kf2 at 800 K, which greatly improves the temperature of the first step of AB dehydrogenation on P3C_O. We hope this work can provide a promising method for the design of catalysts for AB dehydrogenation reactions on the surface of two-dimensional materials (2D). The Os/P3C and Os/P3C_O single atom catalysts structures were established and used to catalyze the dehydrogenation of ammonia borane. And the optimal path is exothermic. [Display omitted]