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Jun.-Prof. Dr. Anna Schenk

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Jun.-Prof. Dr. Anna Schenk Jun.-Prof. Dr. Anna Schenk
Jun.-Prof. Dr. Anna Schenk

Lehrstuhl für Physikalische Chemie
Universität Bayreuth | KeyLab Koordinatorin


Berufserfahrung

seit 01/2017Juniorprofessorin für Kolloidale Systeme
Physikalische Chemie, Universität Bayreuth
11/2013 – 12/2016

Postdoktorandin (Carl-Zeiss-Stiftung)
Institut für Polymerchemie, Universität Stuttgart, Prof. Sabine Ludwigs

02/2011 – 10/2013

Postdoktorandin
School of Chemistry, University of Leeds, Leeds (GB), Prof. Fiona Meldrum


Ausbildung

10/2007 – 05/2011Promotion in Physikalischer Chemie
MPI Kolloid- und Grenzflächenforschung & Universität Potsdam (Prof. P. Fratzl & Prof. M. Antonietti)
10/2005 – 08/2007M. Sc. Chemie
Universität Leipzig
02/2006 – 06/2006Auslandssemester an der Universität Uppsala
Schweden (Erasmus)
10/2002 – 07/2005B. Sc. Chemie
Universität Leipzig

Auszeichnungen und andere Verantwortlichkeiten

2015Postdoktorandenstipendium der Carl-Zeiss-Stiftung
2015Eingeladene Teilnehmerin des Japanese-German Frontiers of Science Symposiums der Humboldt-Stiftung, Kyoto, Japan
2015Posterpreis, Summerschool NanoBioMater, Bad Herrenalb
2008Stipendium der Christiane Nüsslein-Volhard-Stiftung
2003Stipendium der Stiftung der deutschen Wirtschaft (SdW)
Jun.-Prof. Dr. Anna Schenk

Lehrstuhl für Physikalische Chemie
Universität Bayreuth | KeyLab Koordinatorin


The research activities of the group are focused on the development of bio-inspired synthetic routes toward functional materials, in particular transition metal oxides. The formation of complex structures is achieved via controlled mineral deposition directed by organic additives and templates in bulk or in confined reaction environments. By combining a range of imaging and scattering techniques, we perform multiscale structural analyses of biogenic and bio-inspired hybrid materials with a particular focus on the nature of nanoscale internal interfaces. In view of potential applications, the synthetically generated nano-, meso-, and microstructures are correlated with the electrocatalytic performance of the materials.

  • Bio-inspired synthetic strategies towards mesostructured functional materials
    Polymer/inorganic nanocomposites | nanoparticle synthesis | nanostructures | (bio-) template-directed mineralization| particle-based crystallization mechanisms | transition metal oxides with spinel structure
  • Structural characterization of biogenic and bio-inspired hybrid materials
    Biominerals | hierarchical structures | nanoscale interfaces | intracrystalline occlusions | (synchrotron) x-ray small- and wide-angle scattering | electron microscopy
  • Structure-property relationships  in mesostructured transition metal oxides
    Electrocatalysis | electrochemical deposition of inorganic materials
Jun.-Prof. Dr. Anna Schenk

Lehrstuhl für Physikalische Chemie
Universität Bayreuth | KeyLab Koordinatorin


Virus-directed formation of electrocatalytically active nanoparticle-based Co3O4 tubes
Schenk, A. S.; Eiben, S.; Goll, M.; Reith, L.; Kulak, A. N.; Meldrum, F. C. ; Wege, C.; Jeske, H.; Ludwigs, S.
Nanoscale 2017

Strain-Relief by Single Dislocation Loops in Calcite Crystals Grown on Self-Assembled Monolayers
Ihli, J.; Clark, J. N.; Côté, A. S.; Kim, Yi-Yeoun; Schenk, A. S.; Kulak, A. N.; Comyn, T. P.; Chammas, O.; Harder, R. J.; Duffy, D. M.; Robinson, I. K.; Meldrum, F. C.
Nature Communications 2016, 7:11878

Three-dimensional Visualization of Dislocation Dynamics During Crystal Growth and Dissolution
Clark, J. N.; Ihli, J.; Schenk, A. S.; Kim, Yi-Yeoun; Kulak, A. N.; Campbell, J. M.; Nesbit, G.; Meldrum, F. C.; Robinson, I. K.
Nature Materials 2015, 14 (8), 780-784

A Critical Analysis of Calcium Carbonate Mesocrystals
Kim, Yi-Yeoun; Schenk, A. S.; Ihli, J.; Kulak, A. N.; Hetherington, N. B. J.; Tang, C. C.; Schmahl, W.; Griesshaber, E.; Hyett, G.; Meldrum, F. C.
Nature Communications 2014, 5:4341, DOI: 10.1038/ncomms5341.

Confinement Stabilises Single Crystal Vaterite Rods
Schenk, A. S.; Albarracin, E. J.; Kim, Yi-Yeoun; Ihli, J.; Meldrum, F. C.
Chemical Communications 2014, 50 (36), 4729-4732

Systematic Study of the Effects of Polyamines on Calcium Carbonate Precipitation
Schenk, A. S.; Cantaert, B.; Kim, Yi-Yeoun; Li, Y.; Read, E. S.; Semsarilar, M.; Armes, S. P.; Meldrum, F. C.
Chemistry of Materials 2014, 26 (8), 2703-2711

Bio-Inspired Formation of Functional Calcite/ Metal Oxide Nanoparticle Composites
Kim, Yi-Yeoun; Schenk, A. S.; Walsh, D.; Kulak, A. N.; Cespedes, O.; Meldrum, F. C.
Nanoscale 2014, 6 (2), 852-859

Ion-association complexes unite classical and non-classical theories for the biomimetic nucleation of calcium phosphate
Habraken, W. J. E. M.; Tao, J.; Brylka, L. J.; Friedrich, H.; Bertinetti, L.; , A. S.; Verch, A.; Dmitrovic, V.; Bormans, P. H. H.; Frederik, P. M.; Laven, J.; van der Schoot, P.; Aichmayer, B.; de With, G.; DeYoreo, J. J.; Sommerdijk, N. A. J. M.
Nature Communications 2013, 4:1507, DOI: 10.1038/ncomms2490

Hierarchical Calcite Crystals with Occlusions of a Simple Polyelectrolyte Mimic Complex Biomineral Structures
Schenk, A. S.; Zlotnikov, I.; Pokroy, B.; Gierlinger, N.; Masic, A.; Zaslansky, P.; Fitch, A. N.; Paris, O.; Metzger, T. H.; Cölfen, H.; Fratzl, P.; Aichmayer, B.
Advanced Functional Materials 2012, 22 (22), 4668-4676

Polymer-induced liquid precursor (PILP) phases of calcium carbonate formed in the presence of synthetic acidic polypeptides  ̶ Relevance to biomineralization
Schenk, A. S.; Zope, H.; Kim, Yi-Yeoun; Kros, A.; Sommerdijk, N. A.J.M.; Meldrum, F. C.
Faraday Discussions 2012, 159, 327-344

Jun.-Prof. Dr. Anna Schenk

Lehrstuhl für Physikalische Chemie
Universität Bayreuth | KeyLab Koordinatorin


Jun.-Prof. Dr. Anna Schenk
Universität Bayreuth
KeyLab Koordinatorin

Physikalische Chemie
Universität Bayreuth
95447 Bayreuth

Telefon: +49 (0)921 / 55-3915
E-Mail: anna.schenk@uni-bayreuth.de
Homepage: Colloidal Systems

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