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Ruddlesden–Popper Hybrid Lead Iodide Perovskite 2D Homologous Semiconductors | Chemistry of Materials
Artificial Construction of the Layered Ruddlesden–Popper Manganite La2Sr2Mn3O10 by Reflection High Energy Electron Diffraction Monitored Pulsed Laser Deposition | Journal of the American Chemical Society
Ruddlesden–Popper Oxychlorides Ba3Y2O5Cl2, Sr3Sc2O5Cl2, and Sr2ScO3Cl: First Examples of Oxide-Ion-Conducting Oxychlorides | ACS Applied Energy Materials
Materials | Free Full-Text | Materials AIILnInO4 with Ruddlesden-Popper Structure for Electrochemical Applications: Relationship between Ion (Oxygen-Ion, Proton) Conductivity, Water Uptake, and Structural Changes
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Structure Dependent Phase Stability and Thermal Expansion of Ruddlesden– Popper Strontium Titanates | Chemistry of Materials
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Ruddlesden-Popper interface in correlated manganite heterostructures induces magnetic decoupling and dead layer reduction: Applied Physics Letters: Vol 109, No 23
Spontaneous phase segregation of Sr2NiO3 and SrNi2O3 during SrNiO3 heteroepitaxy | Science Advances
Effects of the Heterointerface on the Growth Characteristics of a Brownmillerite SrFeO2.5 Thin Film Grown on SrRuO3 and SrTiO3 Perovskites | Scientific Reports
Nickel Exsolution‐Driven Phase Transformation from an n=2 to an n=1 Ruddlesden‐Popper Manganite for Methane Steam Reforming Reaction in SOFC Conditions - Vecino‐Mantilla - 2019 - ChemCatChem - Wiley Online Library
Phase relations in the SrO-IrO2-Ir system in air
Structure Dependent Phase Stability and Thermal Expansion of Ruddlesden– Popper Strontium Titanates | Chemistry of Materials
Materials | Free Full-Text | Materials AIILnInO4 with Ruddlesden-Popper Structure for Electrochemical Applications: Relationship between Ion (Oxygen-Ion, Proton) Conductivity, Water Uptake, and Structural Changes
Dynamic layer rearrangement during growth of layered oxide films by molecular beam epitaxy | Nature Materials
Ruddlesden-Popper interface in correlated manganite heterostructures induces magnetic decoupling and dead layer reduction: Applied Physics Letters: Vol 109, No 23
Deconvolution of Water-Splitting on the Triple-Conducting Ruddlesden–Popper-Phase Anode for Protonic Ceramic Electrolysis Cells | ACS Applied Materials & Interfaces
Pr-Doped SrTi0.5Mn0.5O3−δ as an Electrode Material for a Quasi-Symmetrical Solid Oxide Fuel Cell Using Methane and Propane Fuel | ACS Applied Materials & Interfaces
Adsorption of water at the SrO surface of ruthenates | Nature Materials
Dynamics of the Lattice Oxygen in a Ruddlesden–Popper-type Sr3Fe2O7−δ Catalyst during NO Oxidation | ACS Catalysis
First-Principles Investigation into Hybrid Improper Ferroelectricity in Ruddlesden–Popper Perovskite Chalcogenides Sr3B2X7 (B = Ti, Zr, Hf; X = S, Se) | The Journal of Physical Chemistry C
Materials | Free Full-Text | Materials AIILnInO4 with Ruddlesden-Popper Structure for Electrochemical Applications: Relationship between Ion (Oxygen-Ion, Proton) Conductivity, Water Uptake, and Structural Changes
Oxygen transport pathways in Ruddlesden–Popper structured oxides revealed via in situ neutron diffraction - Journal of Materials Chemistry A (RSC Publishing) DOI:10.1039/C5TA04193G