Selective photocatalytic C-C coupling of isopropanol into pinacol with concurrent hydrogen evolution over GONaOH photocatalyst

If a sacrificial agent is selectively oxidized to generate high-value chemicals during photocatalytic hydrogen production, then photocatalytic water splitting is more meaningful in consideration of green chemistry. GO(NaOH) was obtained after hydrothermal treatment of graphene oxide (GO) using 10 mol L-1 NaOH. The average hydrogen production rate could reach 7.36 mmol h(-1) over 0.50 g L-1 GO(NaOH) photocatalyst for a reaction of 12 h. And the sacrificial agent isopropanol could undergo selective oxidative C-C coupling to generate pinacol. The isopropanol conversion rate was 77.95%, and the pinacol selectivity was 62.32%. Also, the GO(NaOH) photocatalytic selective oxidative C-C coupling mechanism of isopropanol was further studied. The OH concentration on the photocatalyst surface was verified as a key factor influencing pinacol selectivity. Under the effect of GO(NaOH) photocatalyst, OH radicals were used for the oxidative dehydrogenation of isopropanol to generate 2-hydroxyisopropyl radicals, and pinacol was generated through C-C coupling. Meanwhile, acetone byproducts could further undergo hydrogenation-dehydrogenation coupling reaction with isopropanol to finally generate pinacol.