Biblio

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Journal Article
Nishida S, Kobayashi S, Kumamoto A, Ikeno H, Mizoguchi T, Tanaka I, Ikuhara Y, Yamamoto T.  0.  Effect of local coordination of Mn on Mn-L-2,L-3 edge electron energy loss spectrum. JOURNAL OF APPLIED PHYSICS. 114(5):054906.
Ermanoski I., Miller J.E, Allendorf M.D.  2014.  Efficiency maximization in solar-thermochemical fuel production: Challenging the concept of isothermal water splitting. Physical Chemistry Chemical Physics. 16(18):8418.
Muhich C.L, Evanko B.W, Weston K.C, Lichty P., Liang X., Martinek J., Musgrave C.B, Weimer A.W.  0.  Efficient generation of H2 by splitting water with an isothermal redox cycle. Science. 341(6145):540-542.
Muhich C.L, Evanko B.W, Weston K.C, Lichty P., Liang X., Martinek J., Musgrave C.B, Weimer A.W.  0.  Efficient generation of H2 by splitting water with an isothermal redox cycle. Science. 341(6145):540-542.
Muhich C.L, Evanko B.W, Weston K.C, Lichty P., Liang X., Martinek J., Musgrave C.B, Weimer A.W.  0.  Efficient generation of H2 by splitting water with an isothermal redox cycle. Science. 341(6145):540-542.
Song S, Zhang H, Ma X, Shao Z, Baker RT, Yi B.  0.  Electrochemical investigation of electrocatalysts for the oxygen evolution reaction in PEM water electrolyzers. International Journal of Hydrogen Energy. 33(19):4955-4961.
Colón-Mercado HR, Mauger SA, Gorensek MB, Fujimoto CH, Lando AA, Ganesan P, Meekins BH, Meeks ND.  2022.  Electrode optimization for efficient hydrogen production using an SO2-depolarized electrolysis cell. International Journal of Hydrogen Energy. 47:14180-14185.
Colón-Mercado HR, Mauger SA, Gorensek MB, Fujimoto CH, Lando AA, Ganesan P, Meekins BH, Meeks ND.  2022.  Electrode optimization for efficient hydrogen production using an SO2-depolarized electrolysis cell. International Journal of Hydrogen Energy. 47:14180-14185.
Colón-Mercado HR, Mauger SA, Gorensek MB, Fujimoto CH, Lando AA, Ganesan P, Meekins BH, Meeks ND.  2022.  Electrode optimization for efficient hydrogen production using an SO2-depolarized electrolysis cell. International Journal of Hydrogen Energy. 47:14180-14185.
White RR, Munch K, Wunder N, Guba N, Sivaraman C, Van Allsburg KM, Dinh H, Pailing C.  2021.  Energy Material Network Data Hubs. International Journal of Advanced Computer Science and Applications. 12
Toops TJ, Brady MP, Zhang F-Y, Meyer HM, Ayers K, Roemer A, Dalton L.  0.  Evaluation of nitrided titanium separator plates for proton exchange membrane electrolyzer cells. Journal of Power Sources. 272:954-960.
Elvington MC, Colon-Mercado H, McCatty S, Stone SG, Hobbs DT.  0.  Evaluation of proton-conducting membranes for use in a sulfur dioxide depolarized electrolyzer. Journal of Power Sources. 195(9):2823-2829.
Ito H, Maeda T, Nakano A, Hwang CMin, Ishida M, Kato A, Yoshida T.  0.  Experimental study on porous current collectors of PEM electrolyzers. International Journal of Hydrogen Energy. 37(9):7418-7428.
Muhich CL, Weston KC, Arifin D, McDaniel AH, Musgrave CB, Weimer AW.  0.  Extracting kinetic information from complex gas–solid reaction data. Industrial & Engineering Chemistry Research. 54(16):4113-4122.
Muhich CL, Weston KC, Arifin D, McDaniel AH, Musgrave CB, Weimer AW.  0.  Extracting kinetic information from complex gas–solid reaction data. Industrial & Engineering Chemistry Research. 54(16):4113-4122.
Muhich CL, Weston KC, Arifin D, McDaniel AH, Musgrave CB, Weimer AW.  0.  Extracting kinetic information from complex gas–solid reaction data. Industrial & Engineering Chemistry Research. 54(16):4113-4122.
Siegel NP, Miller JE, Ermanoski I, Diver RB, Stechel EB.  0.  Factors affecting the efficiency of solar driven metal oxide thermochemical cycles. Industrial & Engineering Chemistry Research. 52(9):3276-3286.
Grigoriev S.A, Dzhus K.A, Bessarabov D.G, Millet P..  0.  Failure of PEM water electrolysis cells: Case study involving anode dissolution and membrane thinning. International Journal of Hydrogen Energy. 39(35):20440-20446.
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.
Coker E.N, Ambrosini A., Rodriguez M.A, Miller J.E.  2011.  Ferrite-YSZ composites for solar thermochemical production of synthetic fuels: in operando characterization of CO2 reduction. Journal of Materials Chemistry. 21(29):10767–10776.
Meredig B., Wolverton C..  0.  First-principles thermodynamic framework for the evaluation of thermochemical H2O- or CO2-splitting materials. Physical Review B. 80(24)
Kim J, Johnson TA, Miller JE, Stechel EB, Maravelias CT.  2012.  Fuel production from CO2 using solar-thermal energy: system level analysis. Energy & Environmental Science. 5(9):8417.
Kim J, Johnson TA, Miller JE, Stechel EB, Maravelias CT.  2012.  Fuel production from CO2 using solar-thermal energy: system level analysis. Energy & Environmental Science. 5(9):8417.
Zhou B, Kong X, Vanka S, Chu S, Ghamari P, Wang Y, Pant N, Shih I, Guo H, Mi Z.  2018.  Gallium nitride nanowire as a linker of molybdenum sulfides and silicon for photoelectrocatalytic water splitting. Nature Communications. 9(1):3856.
Herron JA, Kim J, Upadhye AA, Huber GW, Maravelias CT.  2015.  A general framework for the assessment of solar fuel technologies. Energy Environ. Sci.. 8(1):126-157.