Philipp Nicolas Depta

Philipp Nicolas Depta

Address
Hamburg University of Technology
Feststoffverfahrenstechnik und Partikeltechnologie
Denickestraße 15 (K)
21073 Hamburg
Office
Building K
Room 2507
Phone
Tel: +49 40 42878 2765
Email
philipp.depta(at)tuhh.de

Publications

  • Depta P.N., Gurikov P., Schroeter B., Forgács A., Kalmár J., Paul G., Marchese L., Heinrich S., Dosta M. (2022): DEM-Based Approach for the Modeling of Gelation and Its Application to Alginate, J. Chem. Inf. Model, 62 (2022) 1, 49-70, DOI: 10.1021/acs.jcim.1c01076
  • Depta P.N., Jacobi C., Zeng A.-P., Dosta M., Heinrich S. (2021). Data-driven multiscale modeling of self-assembly and hierarchical structural formation in biological macro-molecular systems. In 24th Results and Review Workshop of the HLRS (Presentation).
  • Depta P.N., Jandt U., Jacobi C., Dosta M., Zeng A.-P., Heinrich S. (2021). Multiscale modeling of the structural formation in biological macromolecular systems using data-driven coupling. In DECHEMA International Workshop on Molecular Modeling and Simulation 2021 (Presentation).
  • Depta P.N., Jandt U., Müller C., Ilhan S., Dosta M., Zeng A.-P., Heinrich S. (2020). Data-driven multiscale modeling of self-assembly and hierarchical structural formation in biological macromolecular systems. CIT, 92: 1249-1249, DOI: 10.1002/cite.202055390
  • Depta P.N., Jandt U., Ilhan S., Jacobi C., Dosta M., Zeng A.-P., Heinrich S. (2020/21). Data-driven coupling of MD and DEM for the investigation of structural formation in biological macromolecular systems. In WCCM ECCOMAS 2020/21 (Presentation).
  • Depta P.N., Jandt U., Dosta M., Zeng A.-P., Heinrich S. (2019): Toward Multiscale Modeling of Proteins and Bioagglomerates: An Orientation-Sensitive Diffusion Model for the Integration of Molecular Dynamics and the Discrete Element Method, J. Chem. Inf. Model, 59 (2019) 1, 386-398, DOI: 10.1021/acs.jcim.8b00613
  • Depta P.N., Jandt U., Ilhan S., Jacobi C., Dosta M., Zeng A.-P., Heinrich S. (2019). Bridging the gap between MD and DEM: Modeling functional particles for biotechnological applications. In Particles 2019 (Presentation).
  • Jacobi C., Ilhan S., Depta P.N., Steinbrecher T., Khansahib I., Dosta M., Heinrich S.,  Zeng A.-P., Jandt U. (2019). Towards Designed Multienzymatic Bioreactions: Changed Assembly Kinetics of Enzyme Complexes by Modifying Flexible Linker Domains. In: EBSA 2019 (Poster).
  • Depta P.N., Jandt U., Ilhan S., Jacobi C., Dosta M., Zeng A.-P., Heinrich S. (2019). Bridging the gap between MD and DEM: Models for macromolecular particle systems on the nano to micro scale. In DEM8 (Poster).
  • Jandt U., Depta P.N., Ilhan S., Jacobi C., Dosta M., Heinrich S., Zeng A.-P. (2019). Towards the digital design of bioreaction cascades: Multi-scale modeling to investigate the structural development of enzyme clusters responsible for efficient cascade bioreactions. In: Himmelfahrtstagung 2019 (Presentation).
  • Depta P.N., Jandt U., Ilhan S., Müller C., Dosta M., Zeng A.-P., Heinrich S. (2019). Particle systems on the molecular scale: Multiscale modeling of bio-agglomerates. In: Proceedings of PARTEC 2019 (Presentation).
  • Depta P.N., Jandt U., Ilhan S., Müller C., Dosta M., Zeng A.-P., Heinrich S. (2018). Multiscale modeling to investigate catalytically active enzymatic aggregates for cascade bioreactions. CIT, 90: 1338-1338, DOI: 10.1002/cite.201855443
  • Jandt U., Depta P.N., Ilhan S., Müller C., Dosta M., Zeng A.-P., Heinrich S. (2018). Multiscale modeling of mixtures of catalytically active and inactive enzymatic aggregates. In: Himmelfahrtstagung 2018 (Poster).