Haitao Hu scite author profile

Catalytic dehydrogenation enables reversible hydrogen storage in liquid organics as a critical technology to achieve carbon neutrality. However, oxidant or base-free catalytic dehydrogenation at mild temperatures remains a challenge. Here, we demonstrate a metal-free carbocatalyst, nitrogen-assembly carbons (NCs), for acceptorless dehydrogenation of N-heterocycles even at ambient temperature, showing greater activity than transition metal–based catalysts. Mechanistic studies indicate that the observed catalytic activity of NCs is because of the unique closely placed graphitic nitrogens (CGNs), formed by the assembly of precursors during the carbonization process. The CGN site catalyzes the activation of C─H bonds in N-heterocycles to form labile C─H bonds on catalyst surface. The subsequent facile recombination of this surface hydrogen to desorb H 2 allows the NCs to work without any H-acceptor. With reverse transfer hydrogenation of various N-heterocycles demonstrated in this work, these NC catalysts, without precious metals, exhibit great potential for completing the cycle of hydrogen storage.

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Haitao Hu

New insights into the photo-enhanced electrocatalytic reduction of carbon dioxide on MoS2-rods/TiO2 NTs with unmatched energy band

The photoelectric catalytic reduction of CO₂ to methanol on CdSeTe NSs/TiO₂ NTs

Metal-free carbocatalyst for room temperature acceptorless dehydrogenation of N-heterocycles

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Haitao Hu

New insights into the photo-enhanced electrocatalytic reduction of carbon dioxide on MoS2-rods/TiO2 NTs with unmatched energy band

The photoelectric catalytic reduction of CO2 to methanol on CdSeTe NSs/TiO2 NTs

Metal-free carbocatalyst for room temperature acceptorless dehydrogenation of N-heterocycles

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The photoelectric catalytic reduction of CO₂ to methanol on CdSeTe NSs/TiO₂ NTs