CO2 Capture at Medium to High Temperature Using Solid Oxide-Based Sorbents: Fundamental Aspects, Mechanistic Insights, and Recent Advances
Carbon dioxide capture and mitigation form a key part of the technological response to
combat climate change and reduce CO2 emissions. Solid materials capable of reversibly …
combat climate change and reduce CO2 emissions. Solid materials capable of reversibly …
Synthetic solid oxide sorbents for CO 2 capture: state-of-the art and future perspectives
Carbon capture is an important and effective approach to control the emission of CO2 from
point sources such as fossil fuel power plants, industrial furnaces and cement plants into the …
point sources such as fossil fuel power plants, industrial furnaces and cement plants into the …
Nanoarray structures for artificial photosynthesis
Conversion and storage of solar energy into fuels and chemicals by artificial photosynthesis
has been considered as one of the promising methods to address the global energy crisis …
has been considered as one of the promising methods to address the global energy crisis …
Lithium silicate nanosheets with excellent capture capacity and kinetics with unprecedented stability for high-temperature CO 2 capture
An excessive amount of CO2 is the leading cause of climate change, and hence, its
reduction in the Earth's atmosphere is critical to stop further degradation of the environment …
reduction in the Earth's atmosphere is critical to stop further degradation of the environment …
[HTML][HTML] State of the art and perspectives of the CO2 chemisorption in ceramics with its simultaneous or subsequent chemical transformation
D González-Varela, C Hernández-Fontes… - Carbon Capture Science …, 2023 - Elsevier
This short review focuses on presenting the CO 2 capture processes performed in ceramic
materials at high temperatures, but mainly on its simultaneous or subsequent catalytic …
materials at high temperatures, but mainly on its simultaneous or subsequent catalytic …
Lithium-based ceramics in nonsilicates for CO 2 capture: Current status and new trends
Carbon capture and storage (CCS) technology has been broadly recognized as having the
potential to play a key role in mitigating the climate changes induced by enormous …
potential to play a key role in mitigating the climate changes induced by enormous …
Wet chemically derived Li4SiO4 nanowires as efficient CO2 sorbents at intermediate temperatures
Lithium silicate based ceramic sorbents are potential materials for CO 2 sorption in the
temperature range of 500–700° C. However, its sorption performance at temperatures< 500° …
temperature range of 500–700° C. However, its sorption performance at temperatures< 500° …
Understanding the CO2 chemical reaction path on Li6ZnO4, a new possible high temperature CO2 captor
X Zhou, F Plascencia-Hernandez, F Yu… - Chemical Engineering …, 2021 - Elsevier
Li 6 ZnO 4 was synthesized, structural and microstructurally characterized and tested as
possible carbon dioxide (CO 2) chemical captor. The structural analysis suggests that Li 6 …
possible carbon dioxide (CO 2) chemical captor. The structural analysis suggests that Li 6 …
Performance enhancement of all-solid CO2 absorbent based on Na2CO3-promoted MgO by using ZrO2 dispersant
MgO is a promising base material for CO 2 absorbents to be used at elevated temperatures
of 200–500° C. To develop a CO 2 capture process utilizing the fluidized bed technology, in …
of 200–500° C. To develop a CO 2 capture process utilizing the fluidized bed technology, in …
Enhancing CO 2 chemisorption on lithium cuprate (Li 2 CuO 2) at moderate temperatures and different pressures by alkaline nitrate addition
A Yañez-Aulestia, Q Wang, H Pfeiffer - Physical Chemistry Chemical …, 2020 - pubs.rsc.org
Lithium, sodium and potassium nitrate-containing Li2CuO2 samples were prepared to
analyze the CO2 capture process at moderate temperatures, using different pressure …
analyze the CO2 capture process at moderate temperatures, using different pressure …