The performance of CO 2 methanation has critical relationships with oxygen vacancies, thus
the fundamental insights of oxygen vacancies activation are of great importance. Herein, a …

High activity catalysts used for eliminating the energy barrier in water breaking-up are of
great significance for accelerating those reactions retarded by water molecules dissociation …

To deeply explore the key role of Ni species over highly active Ni-MgO catalysts for the dry
reforming of methane (DRM) is still a great challenge. This study presents a Ni-MgO catalyst …

It is highly desirable to fabricate an accessible catalyst surface that can efficiently activate
reactants and desorb products to promote the local surface reaction equilibrium in …

Here, scanning transmission X-ray microscopy (STXM) analysis was utilized to directly
present visual evidence of changes in oxygen storage capacity (OSC) when small amounts …

In this study, a sensitivity analysis was performed for an integrated SESMR process, and an
optimization approach was formulated by develo** an artificial neural network-based …

Engineering the interfacial interaction between the active metal element and support
material is a promising strategy for improving the performance of catalysts toward CO2 …

An integrated sorption-enhanced steam methane reforming (SESMR) process for
simultaneous blue H 2 production and CO 2 capture is developed on the semi-central scale …

The water gas shift reaction is an important reaction for H 2 production in various industrial
applications. The presence of CaO can promote the reactivity of the water gas shift reaction …

Metal–oxide interfaces on Cu-based catalysts play very important roles in the low-
temperature water–gas shift reaction (LT-WGSR). However, develo** catalysts with …