FACULTY
The Faculty of the Doctoral School Biomaterials and Biointerfaces (BioMatInt) consists of 9 Principal Investigators (PIs) and 5 Associated Faculty Members from seven Departments of BOKU:
- Department of Agrobiotechnology
- Department of Biotechnology
- Department of Chemistry
- Department of Economics and Social Sciences
- Department of Food Science and Technology
- Department of Material Sciences and Process Engineering
- Department of Nanobiotechnology
Principal Investigators
Notburga GIERLINGER is Associate Professor at the Institute of Biophysics at the Department of Nanoobiotechnology. Her research group BIONAMI investigates BIOlogical materials on the NAno- and MIcroscale, with focus on plants. Research projects tackle plant surfaces and interfaces and their hydrophobisation (START-project) or the secrets behind the unique mechanical performance of nutshells in the ERC consolidator grant “Scattering and tapping on soft-hard-open nuts”. The main experimental tools are microspectroscopy (Raman and FT-IR) to reveal chemistry in context with structure and Atomic force microscopy (AFM) to investigate nanostructure, nanochemistry and nanomechanics.
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Georg M. GUEBITZ is Full Professor and head of the Department of Agrobiotechnology and of the Instiute of Environmental Biotechnology. He also acts as the chairman of the polymer biotechnology section of the European Federation of Biotechnology. He teaches various lectures in the field of biotechnology based approaches for sustainable processes. His research interests are in the development of enzyme based strategies for polymer processing / functionalisation and in environmental biotechnology. He participated in 30 European projects and coordinated 11 out of which. His achievements in the development of environmentally friendly processes using biotechnological approaches resulted in various awards, 15 patents and 340 peer reviewed publications.
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Cornelia KASPER is Professor of Biotechnology and Head of the Institute for Cell and Tissue Culture Technologies. Her research focuses on the development of processes and techniques for the isolation, characterization, expansion and differentiation of human primary/stem cells. For the expansion and differentiation of progenitor/stem cells and co-cultures, we develop optimized dynamic 3 D cell culture conditions mimicking physiological environment for the generation of functional 3 D tissue constructs under defined and controlled dynamic conditions using tailor-made bioreactors and optimized bioprocess parameters. Furthermore, we develop in close collaboration with clinical partners cell based therapy strategies for the manufacturing of cell-based products and cell based 3 D in vitro test systems.
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Helga LICHTENEGGER is Professor and Head of Institute at the Institute of Physics and Materials Sciences, Department of Material Sciences and Process Engineering (where she is deputy Head of Department). Her research interests lie in the field of applied physics and biomaterials science, with focus on nanoscale structure characterization and the relationship of nanostructure to macroscopic properties. She has worked on bone, teeth, plant cell walls and proteins in solution, complemented by synthetic materials with bio-inspired structure such as nanocomposites. She applies and further develops x-ray scattering methods in the laboratory and at Synchrotron large scale facilities in Europe.
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Roland LUDWIG is Assistant Professor at the Department of Food Science and Technology where he started the Biocatalysis and Biosensing Laboratory (BBL) in 2015. His research is enzyme centered and covers fundamental studies on enzymatic mechanisms and enzyme kinetics as well as applied research on enzyme engineering, protein production and bio(electro)catalysis in synthetic and analytic applications. Working with oxidoreductases, the investigation of intra- and intermolecular electron transfer events with fast kinetic and electrochemical methods became the major research interest of BBL. Our goal is to understand the fundamental principles of electron transfer in proteins and apply them in biocatalysis and biosensing.
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Herwig MAYER is Associate Professor at the Institute of Physics and Materials Science, Department of Material Sciences and Process Engineering. His main field of scientific interest is material fatigue. Research focuses on experimental investigations and predictions of material behaviour after long service times, after stressing with very high numbers of cycles at rather low load amplitudes. Influence of microstructural variability, corrosion, temperature and loading mode on cyclic strength are studied. The ultrasonic fatigue testing method is further developed and used for accelerated testing, i.e. to replicate the actual loading during several years within typically one day.
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Chris OOSTENBRINK is Professor at the Institute of Molecular Modeling and Simuation at the Department of Material Sciences and Process Engineeering. Computational approaches to study structure, dynamics and function of complex biomolecular systems are the main focus of his research, in which he tries to strike a balance between method development and applications to molecular systems of interest. Starting from statistical mechanics, he aims to quantify the interactions between molecules or to enhance the conformational sampling. Through computer simulations, the effects of molecular interactions on the structure and function of biological materials is studied.
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Drazen PETROV is a Senior Scientist and Deputy Head at the Institute of Molecular Modeling and Simulation, focusing on the development and application of molecular modelling techniques, primarily aimed at studying properties of complex systems on the one hand and behaviour of biomolecules on the other. For example, his research interests include examining the effects of complex environments on protein structure, dynamics and function; investigating biogeochemical processes in soil organic matter at the molecular level; and exploring potential limitations of molecular modelling techniques and ways to address them.
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Erik REIMHULT is Full Professor at the Department of Nanobiotechnology and head of the Institute for Biologically Inspired Materials. His research spans biointerfaces from biosensor surface functionalization to drug delivery and biologically inspired composites. His current research is focused on developing new approaches to synthesize and study the assembly of biomimetic nanoscale materials with application in medicine and biotechnology, as well as on the study of colloidal interactions of biological interfaces with special interest in early-stage bacteria adhesion to solid and liquid interfaces.
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Harald RENNHOFER is Assistant Professor at the Department of Materials Sciences and Process Engineering, Institute of Physics and Materials Science. His research interests are structure and properties of bio-based materials (silk, cellulose, lignin, protein) and hierarchically structured materials (carbon fibre reinforced plastics, bone, wood) and is mainly based on small angle and wide angle X-ray scattering in the laboratory and at international research facilities.
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Associated Faculty Members
Anita de Ruiter is a senior scientist at the Institute of Molecular Modeling and Simuation at the Department of Material Sciences and Process Engineeering. She has a strong background in computational chemistry and biomolecular simulations, with research focused on free energy calculations, particularly in the context of drug design and protein interactions. She develops methodological innovations to improve the efficiency of binding free energy calculations as well as to overcoming sampling problems.
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Guruprakash SUBBIAHDOSS is Senior Scientist at the Institute of Biologically Inspired Materials (BIMat) in the Department of Nanobiotechnology. Dr. Subbiahdoss holds a Ph.D. in Biomedical Engineering. His main research interest is biofilms at (solid-liquid, air-liquid, and liquid-liquid) interfaces. His research focuses on the development of in vitro methodologies to study bacterial adhesion and early stage biofilm formation at interfaces, host-pathogen interactions, and development of strategies to fight biofilm infections by exploiting new technologies in antimicrobial coatings and nanomaterials.
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Ronald ZIRBS is Senior scientist at the Institute for Biologically inspired materials at the University of Natural Resources and Life Sciences Vienna (BOKU), about to submit his habilitation in the area of composite/hybrid structured nanomaterials. Since the start of his diploma thesis at the TU-Vienna Dr. Zirbs has been working on the synthesis, the modification and the analytics of nanoparticles, colloids and complex polymers. Besides his own PhD and postdoc work he co-supervised several diploma and PhD students, is laboratory manager and co-managed the student exercises labs.
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