Recommended strategies for quantifying oxygen vacancies with X-ray photoelectron spectroscopy
Oxygen vacancies play a crucial role in sha** the properties of metal oxides for diverse
applications such as catalysis, ferroelectricity, magnetism, and superconductivity. Although X …
applications such as catalysis, ferroelectricity, magnetism, and superconductivity. Although X …
A state-of-the-art review on waste plastics-derived aviation fuel: Unveiling the heterogeneous catalytic systems and techno-economy feasibility of catalytic pyrolysis
In recent years, there has been an increase in the amount of attention paid in published
scientific works to the problems that waste plastics, and the associated issues cause in the …
scientific works to the problems that waste plastics, and the associated issues cause in the …
Ni-noble metal bimetallic catalysts for improved low temperature CO2 methanation
Bimetallic nickel-noble metal catalysts with a low noble metal loading (1 wt% of Ru, Pt, Rh,
Pd, or Ir) supported on Pr-doped CeO 2 were comparatively evaluated regarding their CO 2 …
Pd, or Ir) supported on Pr-doped CeO 2 were comparatively evaluated regarding their CO 2 …
Comprehensive review of nickel-based catalysts advancements for CO2 methanation
This study reviews the advancements in nickel-based catalysts for carbon dioxide
methanation, a key process for reducing greenhouse gas emissions and supporting …
methanation, a key process for reducing greenhouse gas emissions and supporting …
S-scheme CeO2-x/AgFeO2/Ag photocatalysts with impressive activity in degradation of different antibiotics under visible light
In the recent decades, along with human consumption, antibiotics are widely used in animal
feed to prevent and treat infectious diseases in livestock. Accordingly, to eliminate these …
feed to prevent and treat infectious diseases in livestock. Accordingly, to eliminate these …
The critical role of intrinsic physicochemical properties of catalysts for CO2 hydrogenation to methanol: A state of the art review
Catalytic hydrogenation is one of the most innovative techniques for reducing atmospheric
carbon dioxide (CO 2) by converting it into beneficial products such as methanol (CH 3 OH) …
carbon dioxide (CO 2) by converting it into beneficial products such as methanol (CH 3 OH) …
Modulating nickel precursors to construct highly active Ni/Y2O3 catalysts for CO2 methanation
Y Hu, Y Men, S Xu, Y Feng, J Wang, K Liu… - International Journal of …, 2024 - Elsevier
Constructing the interface of Ni/Y 2 O 3 heterogeneous catalyst is a feasible strategy for
efficient catalyst design in CO 2 methanation, which can create the active Y–O–Ni interfacial …
efficient catalyst design in CO 2 methanation, which can create the active Y–O–Ni interfacial …
Oxygen vacancy-rich CeO2 decorated with Cu3BiS3 nanoparticles: Outstanding visible-light photocatalytic performance towards tetracycline degradation
Recently, the degradation of antibiotics has attracted a lot of attention all over the world,
because the accumulation of these recalcitrant compounds in the environment, and their …
because the accumulation of these recalcitrant compounds in the environment, and their …
Machine learning analysis of catalytic CO2 methanation
In this work, a detailed dataset containing 4051 data points gathered from 527 distinct
experiments in 100 published articles for catalytic CO 2 methanation was analyzed using …
experiments in 100 published articles for catalytic CO 2 methanation was analyzed using …
Well-Designed morphology regulated ZIF-67 derived 0D/1D Co3O4@ TiO2 NWs integrated with in-situ grown Ni/Co-Active metals for Low-Temperature driven CO2 …
Well-designed morphology regulated MOF-templated Co 3 O 4 over titanium dioxide
nanowires (TiO 2 NWs) boasting intimate interfacial contact for highly efficient CO 2 …
nanowires (TiO 2 NWs) boasting intimate interfacial contact for highly efficient CO 2 …