Principal strategies for designing graphdiyne-based catalyst toward green hydrogen production from water electrolysis

Abstract: Water electrolysis has attracted significant attention for large-scale production of green hydrogen as next-germination clean fuels. Recently, the development of graphdiyne (GDY), a new member of carbon allotropes, has been promisingly offering novel alternatives for acquisition of inexpensive and efficient catalysts in the water electrolyzer. The unique atomic arrangement in GDY architecture leads to coexistence of sp– and sp2–C, correspondingly brings numerous intriguing features such as heterogeneous electr… Show more