Publikationen

Suchergebnisse

Zeitschriftenartikel (3)

  1. Zeitschriftenartikel
    Wang, W.; Voigt, A.; Sundmacher, K.: The interaction of protein-coated bionanoparticles and surface receptors reevaluated: how important is the number of bonds? Soft Matter 12 (30), S. 6451 - 6462 (2016)
  2. Zeitschriftenartikel
    Wang, W.; Voigt, A.; Wolff, M. W.; Reichl, U.; Sundmacher, K.: Binding kinetics and multi-bond: Finding correlations by synthesizing interactions between ligand-coated bionanoparticles and receptor surfaces. Analytical Biochemistry 505, S. 8 - 17 (2016)
  3. Zeitschriftenartikel
    Wang, W.; Wolff, M. W.; Reichl, U.; Sundmacher, K.: Avidity of influenza virus: Model-based identification of adsorption kinetics from surface plasmon resonance experiments. Journal of Chromatography A 1326, S. 125 - 129 (2014)

Vortrag (3)

  1. Vortrag
    Krafft, D.; Wang, W.; Otrin, L.; Ivanov, I.; Vidaković-Koch, T.; Sundmacher, K.: Functionalized Membranes for Bottom-up Synthetic Biology. DECHEMA Workshop Systems Biology meets Synthetic Biology, Frankfurt am Main, Germany (2017)
  2. Vortrag
    Wang, W.; Voigt, A.; Wolff, M. W.; Reichl, U.; Sundmacher, K.: Optimization of affinity membrane adsorption by evaluating multivalent interaction. ECCE10+ECAB3+EPIC5 , Nice, France (2015)
  3. Vortrag
    Voigt, A.; Wang, W.; Sundmacher, K.: Key-Lock Systems for Bioseparations - Molecular Simulation for Kinetic Models. AIChE Annual Meeting, Atlanta, USA (2014)

Poster (2)

  1. Poster
    Wang, W.; Voigt, A.; Wolff, M. W.; Reichl, U.; Sundmacher, K.: A Synthetic Biology Approach to Affinity Membrane Adsorption. ProcessNet-Annual Meeting, Aachen, Germany (2014)
  2. Poster
    Wang, W.; Voigt, A.; Sundmacher, K.: Application of synthetic bionanoparticles to affinity membrane adsorption, Soft Smart Particles: Preparation and Applications. DECHMA, Frankfurt am Main, Germany (2014)

Hochschulschrift - Doktorarbeit (1)

  1. Hochschulschrift - Doktorarbeit
    Wang, W.: Multivalent Adsorption of Biological Nanoparticles of Functional Surfaces. Dissertation, 150 S., Otto-von-Guericke-Universität, Magdeburg (2016)
 
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