J
Julia Kunze-Liebhäuser
Researcher at University of Innsbruck
Publications - 57
Citations - 833
Julia Kunze-Liebhäuser is an academic researcher from University of Innsbruck. The author has contributed to research in topics: Catalysis & Electrocatalyst. The author has an hindex of 15, co-authored 49 publications receiving 569 citations. Previous affiliations of Julia Kunze-Liebhäuser include Technische Universität München.
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Journal ArticleDOI
Preferentially Oriented TiO2 Nanotubes as Anode Material for Li-Ion Batteries: Insight into Li-Ion Storage and Lithiation Kinetics.
Andrea Auer,Engelbert Portenkirchner,Thomas Götsch,Carlos Valero-Vidal,Simon Penner,Julia Kunze-Liebhäuser +5 more
TL;DR: It is shown that the thermodynamic properties, which describe the ability of the host material to intercalate Li ions, have a negligible influence on the superior performance of PO NTs.
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Oxygen deficient, carbon coated self-organized TiO2 nanotubes as anode material for Li-ion intercalation
Jassen Brumbarov,J. P. Vivek,Silvia Leonardi,Carlos Valero-Vidal,Engelbert Portenkirchner,Julia Kunze-Liebhäuser +5 more
TL;DR: In this article, the authors reported on the lithiation and delithiation characteristics of anodically grown, self-organized TiO2 nanotubes annealed in Ar (TiO2−x) and Ar/C2H2 (TiOs−x−C).
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Self-activation of copper electrodes during CO electro-oxidation in alkaline electrolyte
Andrea Auer,Mie Andersen,Eva-Maria Wernig,Nicolas G. Hörmann,Nico Buller,Karsten Reuter,Karsten Reuter,Julia Kunze-Liebhäuser +7 more
TL;DR: In this article, the ability of Earth-abundant Cu to electro-oxidize CO efficiently in alkaline media, reaching high current densities of ≥ 0.35 µm/cm−2 on single-crystal Cu(111) model catalysts, was demonstrated.
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Core-shell TiO2@C: towards alternative supports as replacement for high surface area carbon for PEMFC catalysts
Alessandro Zana,Celine Rüdiger,Julia Kunze-Liebhäuser,Gaetano Granozzi,Nini E. A. Reeler,Tom Vosch,Jacob J. K. Kirkensgaard,Matthias Arenz +7 more
TL;DR: In this article, a corrosion resistant TiO2@C powder was tested as possible alternative to standard carbon black supports for polymer electrolyte membrane fuel cells, and the results demonstrated improved corrosion resistance.