Solar Redox Cycling of Ceria Structures Based on Fiber Boards, Foams, and Biomimetic Cork-Derived Ecoceramics for Two-Step Thermochemical H2O and CO2 Splitting
- 4 June 2020
- journal article
- research article
- Published by American Chemical Society (ACS) in Energy & Fuels
- Vol. 34 (7), 9037-9049
- https://doi.org/10.1021/acs.energyfuels.0c01240
Abstract
No abstract availableFunding Information
- ANR (ANR-16-CE06-0010)
This publication has 54 references indexed in Scilit:
- Green Synthetic Fuels: Renewable Routes for the Conversion of Non-Fossil Feedstocks into Gaseous Fuels and Their End UsesEnergies, 2020
- Beyond Solar Fuels: Renewable Energy‐Driven ChemistryChemSusChem, 2017
- H2O splitting via a two-step solar thermoelectrolytic cycle based on non-stoichiometric ceria redox reactions: Thermodynamic analysisInternational Journal of Hydrogen Energy, 2017
- Fundamentals and Catalytic Applications of CeO2-Based MaterialsChemical Reviews, 2016
- Diffusion of Oxygen in Ceria at Elevated Temperatures and Its Application to H2O/CO2 Splitting Thermochemical Redox CyclesThe Journal of Physical Chemistry C, 2014
- Analytical Model of CeO2 Oxidation and ReductionThe Journal of Physical Chemistry C, 2013
- Whither solar fuels?Current Opinion in Chemical Engineering, 2012
- Sustainable hydrocarbon fuels by recycling CO 2 and H 2 O with renewable or nuclear energyRenewable and Sustainable Energy Reviews, 2011
- A thermochemical study of ceria: exploiting an old material for new modes of energy conversion and CO 2 mitigationPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2010
- Important roles of Fischer–Tropsch synfuels in the global energy futureEnergy Policy, 2008