Reactivity of Group
5 and 6 Single-Site Photocatalysts
for Partial Oxidation of Methane: Comparison of Chromium, Niobium,
and Tungsten-Doped Mesoporous Amorphous Silica
posted on 2023-08-15, 14:36authored byClint
N. Evrard, Lee M. Thompson
Single-site transition-metal-doped photocatalysts can
potentially
be used for partial oxidation of methane (POM) at remote sites where
natural gas is extracted and methane is often flared or released to
the atmosphere. While there have been several investigations into
the performance of vanadium, there has been no general survey of the
performance of other metals. This work aims and examines Cr, Nb, and
W metal oxide materials embedded in amorphous SiO2 to determine
the viability of each metal in catalyzing the POM. Photoexcited states
are examined to determine the nature of the photoactivated species,
and then the subsequent POM reaction mechanisms are elucidated. Using
the calculated energies of reaction intermediates and transition states,
the rate of methanol formation is evaluated through the use of a microkinetic
model. The findings indicate that all three metals are potentially
more suitable for catalyzing POM than vanadium but that niobium shows
the most favorable energy profile.