Publications

Fraunhofer IWS

Here you can find current publications of the Fraunhofer IWS on battery research.

Jahr
Year
Titel/Autor:in
Title/Author
Publikationstyp
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Diese Liste ist ein Auszug aus der Publikationsplattform Fraunhofer-Publica

This list has been generated from the publication platform Fraunhofer-Publica

Publications of the project partners since 2016

Fraunhofer IKTS

Here you will find current Fraunhofer IKTS publications on battery research.

Jahr
Year
Titel/Autor:in
Title/Author
Publikationstyp
Publication Type
Diese Liste ist ein Auszug aus der Publikationsplattform Fraunhofer-Publica

This list has been generated from the publication platform Fraunhofer-Publica

Leibniz IFW Dresden

Here you will find current Leibniz IFW Dresden publications on battery research.

  • S. Maletti, F. Podetti, S. Oswald, L. Giebeler, C. Barbero, D. Mikhailova, J. Balach, LiV3O8-Based Functional Separator Coating as Effective Polysulfide Mediator for Lithium–Sulfur Batteries, ACS Appl. Energy Mater., 2020, 3, 3, 2893-2899.
  • S. Maletti, A. Sarapulova, A. Schökel, D. Mikhailova, Operando Studies on the NaNi0.5Ti0.5O2 Cathode for Na-Ion Batteries: Elucidating Titanium as a Structure Stabilizer, ACS Appl. Mater. Interfaces, 2019, 11, 33923-33930
  • J. Guo, A. Omar, A. Urbanski, S. Oswald, P. Uhlmann, L. Giebeler, Electrochemical Behavior of Microparticulate Silicon Anodes in Ether-Based Electrolytes: Why Does LiNO3 Affect Negatively?, ACS Appl. Energy Mater., 2019 2, 6, 4411-4420
  • A. Urbanski, A. Omar, J. Guo, A. Janke, U. Reuter, M. Malanin, F. Schmidt, D. Jehnichen, M. Holzschuh, F. Simon, K.-J. Eichhorn, L. Giebeler, P. Uhlmann An Efficient Two-Polymer Binder for High-Performance Silicon Nanoparticle-Based Lithium-Ion Batteries: A Systematic Case Study with Commercial Polyacrylic Acid and Polyvinyl Butyral Polymers, J Electrochem. Soc., 2019, 166, 3, A5275-A5286
  • A. Krause, O. Tkacheva, A. Omar, U. Langklotz, L. Giebeler, S. Dörfler, F. Fauth, T. Mikolajick, . W. M. Weber, In Situ Raman Spectroscopy on Silicon Nanowire Anodes Integrated in Lithium Ion Batteries, J. Electrochem. Soc. 2019,166, A5378.
  • C. Schneidermann, C. Kensy, P. Otto, S. Oswald, L. Giebeler, D. Leistenschneider, S. Grätz, S. Kaskel, L. Borchardt, Nitrogen-Doped Biomass-Derived Carbon Formed by Mechanochemical Synthesis for Lithium-Sulfur Batteries, ChemSusChem  2019, 12, 16, 310-319.
  • S. Maletti, L. Giebeler, S. Oswald, A. A. Tsirlin, A. Senyshyn, A. Michaelis, D. Mikhailova, Irreversible Made Reversible: Increasing the Electrochemical Capacity by Understanding the Structural Transformations of NaxCo0.5Ti0.5O2, ACS Appl. Mater. Interfaces 2018, 10, 36108.
  • S. Maletti, A. Sarapulova, A.A. Tsirlin, S. Oswald, F. Fauth, L. Giebeler, N. N. Bramnik, H. Ehrenberg, D. Mikhailova, Electrochemical behavior of LiV3O8 positive electrode in hybrid Li,Na-ion batteries, J. Power Sources 2018, 373,1.
  • S. Oswald, F. Thoss, M. Zier, M. Hoffmann, T. Jaumann, M. Herklotz, K. Nikolowski, F. Scheiba, M. Kohl, L. Giebeler, D. Mikhailova, H. Ehrenberg, Binding Energy Referencing for XPS in Alkali Metal-Based Battery Materials Research (II): Application to Complex Composite Electrodes, Batteries 2018, 4, 3, 36/1-19.
  • D. Mikhailova, L. Giebeler, S. Maletti, S. Oswald, A. Sarapulova, S. Indris, Z. Hu, J. Bednarcik, M. Valldor, Operando Studies of Antiperovskite Lithium Battery Cathode Material (Li2Fe)SO, ACS Appl. Energy Mater., 2018, 1, 6593−6599.
  • S. Dörfler, P. Strubel, T. Jaumann, E. Troschke, F. Hippauf, C. Kensy, A. Schoekel et al., On the mechanistic role of nitrogen-doped carbon cathodes in lithium-sulfur batteries with low electrolyte weight portion, Nano Energy 2018, 54, 116.
  • J.G.S. Moo, A. Omar, T. Jaumann, S. Oswald, J. Balach, S. Maletti, L. Giebeler, One-Pot Synthesis of Graphene-Sulfur Composites for Li-S Batteries: Influence of Sulfur Precursors, C - Journal of Carbon Research 2018, Cover article, 4, 2, 1-17.
  • R. Reinhold, D. Mikhailova, T. Gemming, A. Missiul, C. Nowka, S. Kaskel, L. Giebeler, Silicon monophosphide as a possible lithium battery anode material, J. Mater. Chem. A 2018, 6, 19974.
  • R. Reinhold, U. Stoeck, H.-J. Grafe, D. Mikhailova, T. Jaumann, S. Oswald, S. Kaskel, L. Giebeler, Surface and Electrochemical Studies on Silicon Diphosphide as Easy-to-Handle Anode Material for Lithium-Based Batteries - the Phosphorus Path, ACS Appl. Mater. Interfaces 2018, 10, 7096.
  • M. Zensich, T. Jaumann, G.M. Morales, L. Giebeler, C.A. Barbero, J. Balach, A top-down approach to build Li2S@rGO cathode composites for high-loading lithium–sulfur batteries in carbonate-based electrolyte. Electrochim. Acta 2018, 296, 243-250.
  • R. Ummethala, M. Fritzsche, T. Jaumann, J. Balach, S. Oswald, R. Nowak, N. Sobczak, I. Kaban, M.H. Ruemmeli, L. Giebeler, Lightweight, free-standing 3D interconnected carbon nanotube foam as a flexible sulfur host for high performance lithium-sulfur battery cathodes, Energy Storage Mater. 2018, 10, 206-215.
  • J. Balach, J. Linnemann, T. Jaumann, L. Giebeler, Metal-based nanostructured materials for advanced lithium–sulfur batteries, J Mater. Chem. A 2018, 6, 46, 23127-23168.
  • J. Balach, T. Jaumann, L. Giebeler, Nanosized Li2S-based cathodes derived from MoS2 for high-energy density Li-S cells and Si-Li2S full cells in carbonate-based electrolyte, Energy Storage Mater. 2017, 8, 26-35.
  • T. Jaumann, J. Balach, U. Langklotz, V. Sauchuk, M. Fritsch, A. Michaelis, V. Teltevskij, D. Mikhailova, S. Oswald, M. Klose, G. Stephani, R. Hauser, J. Eckert, L. Giebeler, Lifetime vs. rate capability: understanding the role of FEC and VC in high-energy Li-ion batteries with nano-silicon anodes, Energy Storage Mater. 2017, 6, 26-35.
  • J. Balach, T. Jaumann, L. Giebeler, Nanosized Li2S-based cathodes derived from MoS2 for high-energy density Li-S cells and Si-Li2S full cells in carbonate-based electrolyte, Energy Storage Mater. 2017, 8, 209-216.
  • T. Jaumann, M. Gerwig, J. Balach, S. Oswald, E. Brendler, R. Hauser, B. Kieback, J. Eckert, L. Giebeler, E. Kroke, Dichlorosilane-derived nano-silicon inside hollow carbon spheres as a high-performance anode for Li-ion batteries, J. Mater. Chem. A 2017, 5, 9262-9271.

Namlab

Here you will find current Namlab publications on battery research.

  • A. Krause et al., “Surface related differences between uncoated versus carbon-coated silicon nanowire electrodes on performance in lithium ion batteries,” J. Energy Storage, vol. 27, p. 101052, Feb. 2020, DOI: 10.1016/j.est.2019.101052.
  • U. Langklotz, T. Lein, C. Schulze, M. Weiser, A. Krause, and A. Michaelis, “Scalable fabrication of gold nanoparticles with adjustable size distribution as catalytic nuclei for the CVD growth of silicon nanowires,” Appl. Surf. Sci., vol. 502, p. 144203, Feb. 2020, DOI: 10.1016/j.apsusc.2019.144203.
  • A. Baasner et al., “The Role of Balancing Nanostructured Silicon Anodes and NMC Cathodes in Lithium-Ion Full-Cells with High Volumetric Energy Density,” J. Electrochem. Soc., vol. 167, no. 2, p. 020516, Jan. 2020, DOI: 10.1149/1945-7111/ab68d7.
  • Krause, A., Tkacheva, O., Omar A., Langklotz, U., Giebeler, L., Doerfler S., Fauth F., Mikolajick, T. & Weber W.M.; In Situ Raman Spectroscopy on Silicon Nanowire Anodes Integrated in Lithium Ion Batteries, J. Electrochem. Soc. 166 (3), pp. A5378-A5385 (2019), DOI: 10.1149/2.0541903jes
  • Krause, A., Doerfler, S., Piwko, M., Wisser, F. M., Jaumann, T., Ahrens, E., Giebler, L., Althues, H., Schaedlich, S., Grothe, J., Jeffrey, A., Grube, M., Brueckner, J., Martin, J., Eckert, J., Kaskel, S., Mikolajick, T. & Weber, W. M.; High Area Capacity Lithium-Sulfur Full-cell Battery with Prelitiathed Silicon Nanowire-Carbon Anodes for Long Cycling Stability, Scientific Reports 6, 27982 (2016), DOI: 10.1037/srep27982
  • Krause, A., Brueckner, J., Doerfler, S., Wisser, F.M., Althues, H., Grube, M., Martin, J., Grothe, J.,Mikolajick, T. & Weber W. M.; Stability and Performance of Heterogeneous Anode Assemblies of Silicon Nanowires on Carbon Meshes for Lithium-Sulfur Battery Applications, MRS Online Proceedings Library Archive 1751 (2015), DOI: https://doi.org/10.1557/opl.2015.196
  • Krause, A., Grube, M., Mikolajick, T. & Weber W. M.; Comparison of Silicon Nanowire Growth on SiO2 and on Carbon Substrates. ECS Trans. 70, 69–78 (2015), DOI: 10.1149/07001.0069ecst
  • Jakschik, S. et al.; “Silicon and Nickel-Silicide Nano Wires as Novel Anode Materials for Lithium Batteries”, Int. Soc. of Electrochem. Meeting 2010, Nice, France

TU Dresden, Chair of Inorganic-Nonmetallic Materials

Here you will find current TU Dresden (ANW) publications on battery research.

  • Krause, A., Langklotz, U., Pohl, D., Tkacheva, O., Pohl, D., Nielsch, K., Mikolajick, T., Weber, W.M.; Surface related differences between uncoated versus carbon-coated silicon nanowire electrodes on performance in lithium ion batteries; (2020) Journal of Energy Storage, 27, art. no. 101052, .
  • Krause, A., Tkacheva, O., Omar, A., Langklotz, U., Giebeler, L., Dörfler, S., Fauth, F., Mikolajick, T., Weber, W.M.; In situ Raman spectroscopy on silicon nanowire anodes integrated in lithium ion batteries; (2019) Journal of the Electrochemical Society, 166 (3), pp. A5378-A5385.
  • Schneider, M., Weiser, M., Matthey, B., Herrmann, M.; In-situ xrd-investigation of electrolytic copper layer; (2018) Applied Surface Science, 457, pp. 815-820.
  • Schneider, M., Liebmann, T., Langklotz, U., Michaelis, A.; Microelectrochemical investigation of anodic oxide formation on the aluminum alloy AA2024; (2017) Electrochimica Acta, 249, pp. 198-205. 
  • Reinke, C., Nikolowski, K., Wolter, M., Michaelis, A.; Influence of the anode graphite particle size on the SEI film formation in lithium-ion cells; (2017) Progress Reports on Impedance Spectroscopy: Measurements, Modeling, and Application, pp. 35-43.