Drazen Petrov
Drazen Petrov Ph.D.
Institut Institut für Molekulare Modellierung und Simulation (MMS)
Standort Muthgasse 18, 1190 Wien
Email drazen.petrov@boku.ac.at
Tel: +43 1 47654-89415
Projekte
Es wurden 0 Projekte gefunden.
Publikationen
Wissentransfer in die Gesellschaft
Medienbeiträge
Vorträge
(2023) Alternative approach to accelerated EDS
Autoren: Petrov, D;
BIOMOS Symposium on Biomolecular Simulation
(2023) Challenges and limitations of (bio)molecular modelling approaches
Autoren: Petrov, D;
Guest lecture at the Ruder Boskovic Institute
(2022) Modelling of soil organic matter and its interactions with clay minerals
Autoren: Gerzabek, M.H.; Galicia Andres; E., Escalona, Y.; Grancic, P; Petrov, D.; Tunega, D; Oostenbrink, C.
Jahrestagung der Deutschen Bodenkundlichen Gesellschaft DBG 2022
(2022) Exploring macroscopic properties of soil organic matter using modeling and molecular simulations
Autoren: Petrov, D;
22nd World Congress of Soil Sciences 2022
(2022) Vienna Soil Organic Matter Modeler 2 (VSOMM2) – computational microscope for SOM systems
Autoren: Petrov, D;
22nd World Congress of Soil Sciences 2022
(2021) Intermolecular Interactions between Soil Organic Matter and Clay Minerals
Autoren: Galicia-Andrés, E; Escalona, Y; Petrov, D; Oostenbrink, C; Tunega, D; Gerzabek, MH
EUROSOIL 2021
(2021) SMArt: Perturbation topology builder
Autoren: Petrov, D;
Workshop on Free Energy Methods in Drug Design-online
(2019) Mutation screening using free energy calculations
Autoren: Petrov, D;
29th International BIOMOS Symposium on Biomolecular Simulation 2019
(2019) Simulation of Reversible Protein -Protein Binding at an Atomistic Scale
Autoren: Perthold, JW; Ohlknecht, C; Petrov, D; Oostenbrink, C
Joint 12th EBSA European Biophysics Congress / 10th IUPAP International Conference on Biological Physics (ICBP)
(2018) Microscopic analysis of the structure, dynamics and absorption properties of the standard Leoardite HA
Autoren: Petrov, D;
21st World Congress of Soil Science WCSS 2018
(2018) Interaction of organic molecules with reactive soil interfaces – molecular modeling and simulation
Autoren: Gerzabek, MH; Tunega, D; Petrov, D; Andres, EG; Grančič, P; Georgieva, I; Aquino, AJA; Lischka, H; Oostenbrink, C
21st World Congress of Soil Science WCSS 2018
(2018) Microscopic analysis of the structure, dynamics and absorption properties of the standard Leonardite humic acid using molecular dynamics simulations
Autoren: Petrov, D; Tunega, D; Gerzabek, MH; Oostenbrink, C
21st World Congress of Soil Science WCSS 2018
(2018) Deciphering the histone code by using molecular dynamics simulations
Autoren: Petrov, D;
Symposium for the 25th Anniversary of the Peter und Traudl Engelhorn Stiftung
(2018) Deciphering the histone code by using molecular dynamics simulations
Autoren: Petrov, D;
28th Intl. BIOMOS Symposium on Biomolecular Simulation 2018
(2017) Microscopic analysis of the structure, dynamics and adsorption properties of the standard Leonardite humic acid by MD simulations
Autoren: Petrov, D;
6th International Symposium on Soil Organic Matter Rothamsted Research
(2017) Deciphering the histone code by using molecular dynamics simulations
Autoren: Petrov, D;
EMBO workshop Histone Variants 2017 - Molecular functions in health and disease
(2017) Modelling of interactions of polar and nonpolar pollutants with soil minerals and soil organic matter
Autoren: Tunega D., Gerzabek M.H., Šolc R., Petrov D., Haberhauer G., Georgieva I., Aquino A.J.A., Oostenbrink C., Lischka H.
Jahrestagung der Deutschen Bodenkundlichen Gesellschaft 2017
(2016) Computer simulations of Soil Organic Matter: structure, dynamics and sorption of small compounds
Autoren: Petrov, D;
26th Intl. BIOMOS Symposium
(2015) Computer simulations of soil organic matter: structure, dynamics and interactions with other entities
Autoren: Petrov, D;
ISSHAC-9 - Ninth International Symposium on Effects of Surface Heterogeneity in Adsorption and Catalysis on Solids
Exploring macroscopic properties of soil organic matter using modeling and molecular simulations
Autoren: Petrov, D; Tunega, D;