Low-temperature oxidative dehydrogenation of propane over NiV mixed oxides derived from LDH precursors

Abstract

A series of NiV mixed metal oxide (MMO) catalysts were derived from the NiV layered double hydroxides (LDHs) synthesized by the constant pH coprecipitation method. The synthesis parameters, (i) Ni/V molar ratio and (ii) calcination temperature ( Tp), were controlled. The MMO catalysts were characterized by physicochemical characterization techniques and then tested for the oxidative dehydrogenation of propane (ODHP). The results showed that the calcination temperature affected the crystalline phase formation and grain size of NiO, as well as the activated temperature of propane, and the addition of V greatly regulated the activity and quantity of the surface oxygen species and improved the propylene selectivity. 4NiV-500 catalyst (Ni/V = 4, Tp = 500 °C) exhibited the best catalytic performance at low temperature (250 °C) with an initial propylene selectivity of about 70%. Therefore, it is an effective method to obtain NiV MMO catalysts with excellent low-temperature activity for ODHP, using LDHs as the precursors while controlling the appropriate amount of V and calcination temperature simultaneously.