Developing the technology of CO 2 hydrogenation into methanol can not only alleviate
environmental problems such as greenhouse effect, but also effectively promote the …

The excess depletion of carbon‐rich fossil fuels and agroforest biomass resources has
aggravated the energy crisis and environmental pollution, causing increased CO2 …

The acidity and basicity of Ni based catalysts play very important role in the catalytic
performance during dry reforming of methane. Hence, the effects of surface basicity …

Currently, energy demand is growing swiftly with global economic growth. The combustion
of fossil fuels is one of the major environmental threats due to the release of CO 2 into the …

Six types of alumina-support Ni catalysts were studied in dry reforming of methane to find out
the influence that calcination rate, calcination temperature, and reduction temperature had …

Carbon dioxide (CO 2) hydrogenation on transition-metal active sites offers a promising
carbon utilization route toward mitigating greenhouse gas emissions. C 1 products are often …

Photocatalytic ammonia (NH 3) synthesis from N 2 is a strategy conducive to carbon
neutrality because it avoids high energy consumption and high carbon emission process in …

The focus of this paper is to solve the carbon deposition on Ni catalyst during dry reforming
of methane (DRM). Cu has shown a great carbon resistance in DRM. Different doping ratio …

Strong metal–support interaction (SMSI) has long been studied in catalytic reactions. Proper
utilization of the SMSI effect might not only improve the stability of the catalysts, but also the …

Abstract Sorption Enhanced Steam Methane Reforming (SESMR) provides a promising
method to produce high purity hydrogen by in-situ CO 2 capture. Ni-doped CaO (Ni-CaO) …