Synergizing Cu dimers and N atoms in graphene towards an active catalyst for hydrogen evolution reaction

Moving forward from single atom catalysts, here we propose Cu mers coordinated with N atoms in graphene as a potential catalyst for hydrogen evolution reaction (HER) using first-principles calculations. Our study shows that Cu mers (monomer, dimer and trimer) with no N coordination adsorb H too strongly, whereas Cu mers with complete N coordination adsorb H too weakly, indicating that neither is catalytically active for HER. However, these results imply that Cu mers with partial N coordination may exhibit a better catalytic performance. Thus, we further explored all the Cu(2)N(x) complexes with different atomic coordination numbers and spatial distributions and find that one of the Cu(2)N(4) atomic configurations possesses a ΔG(H*) of −0.09 eV, exhibiting a superior catalytic performance for HER. The possible reason might be that this configuration tunes the p-band center to an optimum level. Our study here reveals a promising catalyst for HER and presents a practical route to design catalysts by introducing metal mers and tuning their coordination with high-valence non-metal elements.