Biblio

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brannerite structure
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
Cerium based oxides
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
CeTi2O6
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
Cubic perovskite
Qian X., He J., Mastronardo E., Baldassarri B., Wolverton C., Haile S.M.  2020.  Favorable Redox Thermodynamics of SrTi0.5Mn0.5O3−δ in Solar Thermochemical Water Splitting. Chemistry of Materials. 32(21):9335-9346.
high thermal stability
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
inorganic perovskite
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
large entropy of reduction
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
Modeling
Qian X., He J., Mastronardo E., Baldassarri B., Wolverton C., Haile S.M.  2020.  Favorable Redox Thermodynamics of SrTi0.5Mn0.5O3−δ in Solar Thermochemical Water Splitting. Chemistry of Materials. 32(21):9335-9346.
oxygen non-stoichiometry
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
Perovskite
Qian X., He J., Mastronardo E., Baldassarri B., Wolverton C., Haile S.M.  2020.  Favorable Redox Thermodynamics of SrTi0.5Mn0.5O3−δ in Solar Thermochemical Water Splitting. Chemistry of Materials. 32(21):9335-9346.
phase transition
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
small reduction enthalpy
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
solar fuel
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
SrTi0.5Mn0.5O3−δ
Qian X., He J., Mastronardo E., Baldassarri B., Wolverton C., Haile S.M.  2020.  Favorable Redox Thermodynamics of SrTi0.5Mn0.5O3−δ in Solar Thermochemical Water Splitting. Chemistry of Materials. 32(21):9335-9346.
thermo-kinetic limit
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
thermochemical hydrogen production
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.
thermodynamic properties
Qian X., He J., Mastronardo E., Baldassarri B., Yuan W., Wolverton C., Haile S.M.  2021.  Outstanding Properties and Performance of CaTi0.5Mn0.5O3–δ for Solar-Driven Thermochemical Hydrogen Production. Matter. 4(2):688-708.