Monoclinic zirconia has been uncovered as a carrier able to substantially boost the activity
of indium oxide for CO2 hydrogenation to methanol. Here, electronic, geometric, and …

The catalytic hydrogenation of CO 2 to methanol depends significantly on the structures of
metal-oxide interfaces. We show that doping a high-valency metal, viz. tungsten, to CeO 2 …

The design and application of semiconductor-based photocatalytic technology has a
significant impact on addressing the world's energy crisis and environmental degradation by …

The role of dopants on the catalytic activity for the dry reforming of methane (DRM) was
investigated on nickel supported on metal doped ceria (Me-DC) catalysts, Ni/Me 0.15 Ce …

Direct CO2 electrolysis using solid oxide electrolysis cells (CO2-SOECs) holds promise to
efficiently convert carbon dioxide to carbon monoxide and oxygen. Cathodes with desirable …

The coupling of solar energy conversion and catalytic ozonation is an effective way to
eliminate volatile organic compounds with high-efficiency and low-energy-consumption. In …

The key challenge for CO 2 methanation, an eight-electron process under kinetic limitation,
relies on the design of non-noble metal catalysts so as to achieve high activity at low …

The gas-phase acetone hydrogenation to isopropanol is an environmentally benign process
relevant to chemical, energy and medical fields, but the catalysts qualified at low …

High‐temperature CO2 electrolysis via solid oxide electrolysis cells (CO2–SOECs) has
drawn special attention due to the high energy convention efficiency, fast electrode kinetics …

A series of CeO 2-MnO x for highly efficient catalytical oxidation of carbon monoxide were
prepared by citrate sol-gel (C), hydrothermal (H) and hydrothermal-citrate complexation …