Catalytic conversion of CO2 to produce fuels and chemicals is attractive in prospect because
it provides an alternative to fossil feedstocks and the benefit of converting and cycling the …

The abrupt and massive deactivation of methane dry reforming catalysts especially Ni-based
is still a monumental impediment towards its industrialization and commercialization for …

Rational design of low‐cost and efficient transition‐metal catalysts for low‐temperature CO2
activation is significant and poses great challenges. Herein, a strategy via regulating the …

The development of high-performance electrocatalysts is a highly efficient strategy to
optimize the sluggish kinetic property of the oxygen evolution reaction (OER). Herein, we …

Low-temperature dry reforming of methane (DRM) can avoid the sintering of nickel and
reduce the cost of the process. However, inefficient activation of CO2 and oxidization of Ni0 …

The structure evolution of surface NiAl 2 O 4 spinel phase in Ni x Al 1 O 2-δ mesoporous
catalysts, synthesized by the citric acid sol-gel method, was systematically investigated …

The increasing amount of greenhouse gases, especially CO2, in the atmosphere during the
past decades has been a matter of great concern. Meanwhile, with the extensive exploration …

Ni-based mesoporous mixed CeO 2-Al 2 O 3 oxide catalysts prepared by one pot
Evaporation Induced Self Assembly (EISA) were tested in dry reforming of methane. The …

This paper reports advances on the preparation of stable Ni-based catalysts for DRM
reaction using various supports, promoters, synthesis methods, and pre-treatment …

Direct CO2 hydrogenation to methanol using renewable energy–generated hydrogen is
attracting intensive attention, but qualifying catalysts represents a grand challenge. Pure …