Geología
Departamento
University of Birmingham
Birmingham, Reino UnidoPublicaciones en colaboración con investigadoras/es de University of Birmingham (19)
2024
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The Anthropocene within the Geological Time Scale: a response to fundamental questions
Episodes, Vol. 47, Núm. 1, pp. 65-83
2023
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Response to Merritts et al. (2023): The Anthropocene is complex. Defining it is not
Earth-Science Reviews, Vol. 238
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The Anthropocene is a prospective epoch/series, not a geological event
Episodes, Vol. 46, Núm. 2, pp. 229-238
2022
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Epochs, events and episodes: Marking the geological impact of humans
Earth-Science Reviews, Vol. 234
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The proposed Anthropocene Epoch/Series is underpinned by an extensive array of mid-20th century stratigraphic event signals
Journal of Quaternary Science, Vol. 37, Núm. 7, pp. 1181-1187
2019
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A formal Anthropocene is compatible with but distinct from its diachronous anthropogenic counterparts: a response to W.F. Ruddiman’s ‘three flaws in defining a formal Anthropocene’
Progress in Physical Geography, Vol. 43, Núm. 3, pp. 319-333
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Comparison of the thermal resistance behaviour of synthesized Ln4Al2O9 (Ln = Y, Sm, Eu, Gd, Tb) materials vs commercial Zr0.8Y0.2O1.9 (8YSZ)
Surface and Coatings Technology, Vol. 374, pp. 745-751
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SOFC cathodic layers using wet powder spraying technique with self synthesized nanopowders
International Journal of Hydrogen Energy, Vol. 44, Núm. 14, pp. 7555-7563
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Synthesis of new Ln4(Al2O6F2)O2 (Ln = Sm, Eu, Gd) phases with a cuspidine-related structure
IUCrJ, Vol. 6, pp. 128-135
2018
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Global Boundary Stratotype Section and Point (GSSP) for the Anthropocene Series: Where and how to look for potential candidates
Earth-Science Reviews, Vol. 178, pp. 379-429
2017
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Making the case for a formal Anthropocene Epoch: An analysis of ongoing critiques
Newsletters on Stratigraphy, Vol. 50, Núm. 2, pp. 205-226
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The Working Group on the Anthropocene: Summary of evidence and interim recommendations
Anthropocene, Vol. 19, pp. 55-60
2016
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Stratigraphic and Earth System approaches to defining the Anthropocene
Earth's Future, Vol. 4, Núm. 8, pp. 324-345
2015
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Characterization of LaNi0.6Fe0.4O3 perovskite synthesized by glycine-nitrate combustion method
Solid State Ionics, Vol. 269, pp. 24-29
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Evaluation of using protective/conductive coating on Fe-22Cr mesh as a composite cathode contact material for intermediate solid oxide fuel cells
International Journal of Hydrogen Energy, Vol. 40, Núm. 14, pp. 4804-4818
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Laser machining of LaNi0.6M0.4O3-δ (M: Co, Fe) dip-coated on a Fe-22Cr mesh material to obtain a new contact coating for SOFC: Interaction between Crofer22APU interconnect and La0.6Sr0.4FeO3 cathode
International Journal of Hydrogen Energy, Vol. 40, Núm. 26, pp. 8407-8418
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Metallic/Ceramic (Fe-22Cr mesh/LaNi0.6Fe0.4O3-δ) Composite as Contact Material for SOFCs
ECS Transactions
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When did the Anthropocene begin? A mid-twentieth century boundary level is stratigraphically optimal
Quaternary International, Vol. 383, pp. 196-203
2014
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LaNi0.6Co0 4O3-δ dip-coated on Fe-Cr mesh as a composite cathode contact material on intermediate solid oxide fuel cells
Journal of Power Sources, Vol. 269, pp. 509-519