Repercussion of Solid state vs. Liquid state synthesized p-n heterojunction RGO-copper phosphate on proton reduction potential in water

Abstract

The same copper phosphate catalysts were synthesized by obtaining the methods involving solid state as well as liquid state reactions in this work. And then the optimised p-n hybrid junction photocatalysts have been synthesized following the same solid/liquid reaction pathways. The synthesized copper phosphate photocatalyst has unique rod, flower, caramel-treat-like morphology. The Mott-Schottky behavior is in accordance with the expected behavior of n-type semiconductor and the carrier concentration was calculated using the M-S analysis for the photocatalyst. And for the p-n hybrid junction of 8RGO-Cu-3(PO4)(2)-PA (PA abbreviated for photoassisted synthesis method), 8RGO-Cu-3(PO4)(2)-EG(EG abbreviated for Ethylene Glycol based synthesis method), 8RGO-Cu-3(PO4)(2)-PEG (PEG abbreviated for Poly(ethylene glycol)-block-poly(propylene glycol)-block-poly(ethylene glycol based synthesis method) the amount of H-2 synthesized was 7500, 6500 and 4500 mu mol/h/g, respectively. The excited electrons resulting after the irradiation of visible light on the CB of p-type reduced graphene oxide (RGO) migrate easily to n-type Cu-3(PO4)(2) via. the p-n junction interfaces and hence great charge carrier separation was achieved.