Dry reforming of methane (DRM) is known to produce synthesis gas through the utilization of
greenhouse gases to ensure environmentally benign process and rational use of natural …

Direct methane protonic ceramic fuel cells are promising electrochemical devices that
address the technical and economic challenges of conventional ceramic fuel cells. However …

In recent decades, the massive emission of greenhouse gases, such as carbon dioxide and
methane, into the atmosphere has had a serious impact on the ecological environment. The …

Nickel, the most commonly used active metal for the dry reforming of methane (DRM), often
encounters the challenge of severe deactivation due to sintering and carbon deposition. In …

Designing and manufacturing an eco-friendly and high-efficiency catalyst is the key
bottleneck for obtaining synthesis gas from dry reforming of methane (DRM), which is …

Sulfur and coking tolerance of Ni-based dry reforming catalysts were examined. Catalysts
utilizing both Ce/Zr and Ce/La oxide supports, some with additional Co, were tested. Long …

Dry reforming of methane (DRM) is a promising process to generate synthetic gas with a low
H 2/CO ratio. The main issues in DRM are the deposition of carbon over the catalyst and …

Calcium-looping dry reforming of methane (CaLDRM) implemented on Ni-CaO dual-
functional materials (DFMs) is a promising solution to achieve integrated CO 2 capture and …

With increasing expectations for carbon neutrality, dry reforming is anticipated for direct
conversion of methane and carbon dioxide: the main components of biogas. We have found …

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 …