A review on dry reforming of methane over perovskite derived catalysts
Dry reforming of methane (DRM) is widely studied as one of the potential routes for syngas
production from two greenhouse gases (CH 4 & CO 2) and can reduce the net emission of …
production from two greenhouse gases (CH 4 & CO 2) and can reduce the net emission of …
Recent advances in heterogeneous catalysis for the nonoxidative conversion of methane
T Zhang - Chemical Science, 2021 - pubs.rsc.org
The direct conversion of methane to high-value chemicals is an attractive process that
efficiently uses abundant natural/shale gas to provide an energy supply. The direct …
efficiently uses abundant natural/shale gas to provide an energy supply. The direct …
Roadmap to the sustainable synthesis of polymers: From the perspective of CO2 upcycling
The demand for virgin polymers is constantly increasing owing to the desired performance
and low recycling rates of polymers; however, this exacerbates significant plastic-industry …
and low recycling rates of polymers; however, this exacerbates significant plastic-industry …
A combined experimental and modeling study of Microwave-assisted methane dehydroaromatization process
The challenges in direct methane conversion to higher-value chemicals include rapid
catalyst deactivation and comparatively low single-pass conversion. The most important step …
catalyst deactivation and comparatively low single-pass conversion. The most important step …
Ethylene production by direct conversion of methane over isolated single active centers
Non-oxidative conversion of methane over iron atoms on silica can provide a potential
catalytic route to directly produce ethylene. However, its mechanism remains elusive …
catalytic route to directly produce ethylene. However, its mechanism remains elusive …
Methane dehydroaromatization using Mo supported on sulfated zirconia catalyst: Effect of promoters
Methane dehydroaromatization (MDHA) is a direct approach of converting methane to
aromatics and H 2. Mo doped HZSM-5/HMCM-22 are considered as the most active and …
aromatics and H 2. Mo doped HZSM-5/HMCM-22 are considered as the most active and …
[HTML][HTML] Methane direct conversion to olefins, aromatics, and hydrogen over silica entrapped bimetallic MeFe-SiO2 (Me= Co, Ni, Pd, Pt) catalysts
Abstract Here, MeFe-SiO 2 (Me= Co, Ni, Pd, Pt) catalysts with bimetallic sites entrapped in a
highly crystalline SiO 2 structure were synthesized and used for the conversion of methane …
highly crystalline SiO 2 structure were synthesized and used for the conversion of methane …
Probing the surface acidity of supported aluminum bromide catalysts
Solid acid catalysis is an important class of reactions. The principal advantages of solid acid
catalysts as compared to their corresponding fluid acids include minimal waste and ease of …
catalysts as compared to their corresponding fluid acids include minimal waste and ease of …
Understanding the Impact of Hydrogen Activation by SrCe0.8Zr0.2O3−δ Perovskite Membrane Material on Direct Non-Oxidative Methane Conversion
Direct non-oxidative methane conversion (DNMC) converts methane (CH4) in one step to
olefin and aromatic hydrocarbons and hydrogen (H2) co-product. Membrane reactors …
olefin and aromatic hydrocarbons and hydrogen (H2) co-product. Membrane reactors …
Direct conversion of methane to C2 hydrocarbons using W supported on sulfated zirconia solid acid catalyst
One of the most challenging aspects of modern day catalysis is the activation of methane.
Conventionally, methane is activated with oxidizing agents to produce syngas, which then …
Conventionally, methane is activated with oxidizing agents to produce syngas, which then …