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Florian Günther defended his PhD at TU Dresden: Congratulations!

Panpan Zhang et al., Thermoswitchable on-chip microsupercapacitors: one potential self-protection solution for electronic devices appeared in Energy & Environmental Science


17th Dresden Microelectronics Academy (DMA), TU Dresden, Registration is open.

1st Dresden Science Tram Tour

4th European Graphene Forum 2018, Venice

NanoNet PhD-Seminar 2018-2

Symposium 'Physics of Self-Organization in DNA Nanostructures (SYDN)' @ DPG Meeting 2019, Regensburg

NanoNet International Conference 2019, Dresden

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The IHRS NanoNet is funded by the Initiative and Networking Fund of the Helmholtz Association (VH-KO-606).


This list is limited to publications authored by IHRS NanoNet PhD candidates.

See for the full funding acknowledgment below.

  • Türkan Bayrak, Seham Helmi, Jingjing Ye, Dominik Kauert, Jeffrey Kelling, Tommy Schönherr, Richard Weichelt, Artur Erbe, and Ralf Seidel,
    DNA-Mold Templated Assembly of Conductive Gold Nanowires,
    Nano Lett. 18 (3), 2116-2123 (2018),
    DOI: 10.1021/acs.nanolett.8b00344
  • Panpan Zhang, Feng Zhu, Faxing Wang, Jinhui Wang, Renhao Dong, Xiaodong Zhuang,* Oliver G. Schmidt, and Xinliang Feng,
    Stimulus-Responsive Micro-Supercapacitors with Ultrahigh Energy Density and Reversible Electrochromic Window,
    Advanced Materials 29, 1604491 (2017),
    DOI: 10.1002/adma.201604491
  • J. Kelling, P. Zahn, J. Schuster, and S. Gemming,
    Elastic and Piezoresistive Properties of Nickel Carbides from First-Principles,
    Phys. Rev. B 95, 024113 (2017)
  • T. Bayrak and E. Goldenberg,
    Growth and characterization of nanocrystalline SrTiOx films: room temperature deposition using RF sputtering system in a pure argon environment,
    DOI: 10.1088/2053-1591/aa6df3
  • Walter M. Weber and Thomas Mikolajick,
    Silicon and germanium nanowire electronics: physics of conventional and unconventional transistors,
    Rep. Prog.Phys. 80, 066502 (2017),
    DOI: 10.1088/1361-6633/aa56f0
  • Bezu Teschome, Stefan Facsko, Tommy Schönherr, Jochen Kerbusch, Adrian Keller, and Artur Erbe,
    Temperature-Dependent Charge Transport through Individually Contacted DNA Origami-Based Au Nanowires,
    Langmuir 32, 10159–10165 (2016),
    DOI: 10.1021/acs.langmuir.6b01961
    Read more ...
    More press coverage: IEEE Spectrum,, Bilim ve Teknik-Bilim Genc (Turkish Science Magazine)
  • Florian Fuchs, Andreas Zienert, Sven Mothes, Martin Claus, Sibylle Gemming, and Jörg Schuster,
    Comparison of atomistic quantum transport and numerical device simulation for carbon nanotube field-effect transistors,
    IEEE SISPAD conference (2016),
    DOI: 10.1109/SISPAD.2016.7605197
  • B. Iyisan, A. Janke, P. Reichenbach, L.M. Eng, D. Appelhans, and B. Voit,
    Immobilized Multifunctional Polymersomes on Solid Surfaces: Infrared Light-Induced Selective Photochemical Reactions, pH Responsive Behavior, and Probing Mechanical Properties under Liquid Phase,
    ACS Applied Materials & Interfaces 8, 15788-15801 (2016),
    DOI: 10.1021/acsami.6b03525
  • B. Iyisan, J. Kluge, P. Formanek, B. Voit, and D. Appelhans,
    Multifunctional and Dual-Responsive Polymersomes as Robust Nanocontainers: Design, Formation by Sequential Post-Conjugations, and pH-Controlled Drug Release,
    Chemistry of Materials 28, 1513-1525 (2016),
    DOI: 10.1021/ACS.ChemMater.5b05016
  • J. Schütt, B. Ibarlucea, R. Illing, F. Zörgiebel, S. Pregl, D. Nozaki, W.M. Weber, T. Mikolajick, L. Baraban, and G. Cuniberti,
    Compact Nanowire Sensors probe Microdroplets,
    Nano Lett. 16, 4991–5000 (2016),
    DOI: 10.1021/acs.nanolett.6b01707
  • J. Kelling, Géza Ódor, and S. Gemming,
    Universality of (2+ 1)-dimensional restricted solid-on-solid models,
    Phys. Rev. E 94, 022107 (2016),
    DOI: 10.1103/PhysRevE.94.022107
  • F. Günther, S. Gemming, and G. Seifert,
    Hopping-Based Charge Transfer in Diketopyrrolopyrrole-Based Donor−Acceptor Polymers: A Theoretical Study,
    J. Phys. Chem. C 120, 9581 (2016),
    DOI: 10.1021/acs.jpcc.6b01310
  • Y. Karpov, T. Erdmann, I. Raguzin, M. Al-Hussein, M. Binner, U. Lappan, M. Stamm, K.L. Gerasimov, T. Beryozkina, V. Bakulev, D.V. Anokhin, D.A. Ivanov, F. Günther, S. Gemming, G. Seifert, B. Voit, P.R. Di, A. Kiriy,
    High Conductivity in Molecularly p-Doped Diketopyrrolopyrrole-Based Polymer: The Impact of a High Dopant Strength and Good Structural Order,
    Advanced Materials 28, 6003-6010 (2016),
    DOI: 10.1002/adma.201506295
  • A. Himani, G. Seifert, G. Cuniberti, M. Helm, A. Erbe,
    Electrical characterization of two-dimensional materials and their heterostructures,
    IEEE RADIO conference 2016 abstracts (2016),
    DOI: 10.1109/RADIO.2016.7772014
  • Bezu Teschome, Stefan Facsko, Kurt V. Gothelf, and Adrian Keller,
    Alignment of Gold Nanoparticle-Decorated DNA Origami Nanotubes: Substrate Prepatterning versus Molecular Combing,
    Langmuir 31, 12823–12829 (2015),
    DOI: 10.1021/acs.langmuir.5b02569
  • Daijiro Nozaki, Lokamani, Alejandro Santana-Bonilla, Arezoo Dianat, Rafael Gutierrez, and Gianaurelio Cuniberti,
    Switchable Negative Differential Resistance Induced by Quantum Interference Effects in Porphyrin-based Molecular Junctions,
    J. Phys. Chem. Lett. 6,3950 (2015),
    DOI: 10.1021/acs.jpclett.5b01595
  • Nano Research 4/2015 Front Cover
    Eunhye Baek, Sebastian Pregl, Mehrdad Shaygan, Lotta Römhildt, Walter M. Weber, Thomas Mikolajick, Dmitry A. Ryndyk, Larysa Baraban, and Gianaurelio Cuniberti,
    Optoelectronic switching of nanowire-based hybrid organic/oxide/semiconductor field-effect transistors,
    Nano Research 8, 1229-1240 (2015),

  • Advanced Science 5/2015 Front Cover
    T. Sendler, K. Luka-Guth, M. Wieser, Lokamani, J. Wolf, M. Helm, S. Gemming, J. Kerbusch, E. Scheer, T. Huhn, and A. Erbe,
    Light-Induced Switching of Tunable Single Molecule Junctions,
    Advanced Science 2, 1500017 (2015), Online-Publication on April 16,
  • J. Meyer, A. Nickel, R. Ohmann, Lokamani, C. Toher, D.A. Ryndyk, Y. Garmshausen, S. Hecht, F. Moresco, and G. Cuniberti,
    Tuning the formation of discrete coordination nanostructures,
    Chem. Comm. 51, 12621 (2015),
    DOI: 10.1039/c5cc02723c
  • M. Bartusch, M. Hetti, D. Pospiech, M. Riedel, J. Meyer, C. Toher, V. Neu, I. Gazuz, L. S. Shagolsem, J.-U. Sommer, R.-D. Hund, Ch. Cherif, F. Moresco, G. Cuniberti, and B. Voit,
    Innovative molecular design for a volume oriented component diagnostic: modified magnetic nanoparticles on high performance yarns for smart textiles,
    Advanced Engineering Materials 16, 1276-1283 (2014),
    DOI: 10.1002/adem.201400192
  • D. Bodilovska, D. Nozaki, and E. Baek,
    Analysis of Electric Field and Electrostatic Potential Distributions in Porphyrin-coated Silicon Nanowire Field-effect Transistors,
    IEEE 34th International Conference on Electronics and Nanotechnology (ELNANO), 119-122 (2014), DOI:10.1109/ELNANO.2014.6873950
  • Bo Jin, Tran Hoai Thu, Eunhye Baek, SungHwan Sakong, Jin Xiao, Tapas Mondal, and M. Jamal Deen,
    Walking-Age Analyzer for Healthcare Applications,
    IEEE Journal of Biomedical and Health Informatics 18, 1034-1042 (2014),
  • Nanoscale 2014, p.1790 abs
    Bezuhayehu Teshome, Stefan Facsko, and Adrian Keller,
    Topography-controlled alignment of DNA origami nanotubes on nanopatterned surfaces,
    Nanoscale 6, 1790 (2014)
    Press Release: Ausgerichtete DNA-Drähte für die Nanoelektronik (in German)
  • G. Ódor, J. Kelling, and S. Gemming,
    Aging of the (2+1)-dimensional Kardar-Parisi-Zhang model,
    Physical Review E 89, 032146 (2015),
  • Larysa Baraban, Felix M. Zörgiebel, Claudia Pahlke, Eunhye Baek, Lotta Römhildt, and Gianaurelio Cuniberti,
    Lab on a Wire: Application of Silicon Nanowires for Nanoscience and Biotechnology,
    In: Nanowire Field Effect Transistors: Principles and Applications; Dae Mann Kim, Yoon-Ha Yeong (Eds.), pp. 241-278, Springer (2014)
    DOI: 10.1007/978-1-4614-8124-9

Note to all NanoNet members:

Please provide the following acknowledgment in all NanoNet publications:
This work has been (partially) financed (or funded) by the Initiative and Networking Fund of the German Helmholtz Association, Helmholtz International Research School for Nanoelectronic Networks NanoNet (VH-KO-606).

If you add NanoNet as affiliation please use:
Helmholtz-Zentrum Dresden - Rossendorf, International Helmholtz Research School for Nanoelectronic Networks (IHRS NanoNet), Bautzner Landstraße 400, 01328 Dresden, Germany