Contact
Member-Login
de
en
Catalysis
Toggle navigation
Research
Applied Sustainable Catalytic Processes
Applied Homogeneous Catalysis
Organic Bulk Chemicals
Transition Metal-Catalyzed Synthesis of Fine Chemicals
Redoxreactions
Theory of Catalysis
Catalysis for Energy
Heterogeneous Catalytic Processes
Inorganic Functional Materials
Liquid Phase Oxidations
Technology oriented Processes
Catalysis with renewable resources
Catalysis with renewables & platform chemicals
Organocatalysis
Innovative Methods and Technologies in Catalysis
Catalytic in situ studies
Optical Spectroscopy
Magn. Resonance and X-Ray Methods
Catalyst Discovery and Reaction Engineering
High-Throughput Technologies
Reaction Engineering
Reaction Mechanisms
Heterogeneous Photocatalysis
Photocatalytic CO2 Reduction
Struktur-Wirk-Beziehungen
Micro Reaction Engineering
Special (metal)organic Syntheses and Catalyses
Coordination Chemistry and Catalysis
Catalysis of Early Transition Metals
Catalysis with late transition metals
Mechanisms in homogeneous catalysis
Asymmetric Catalysis
Asymmetric Hydrogenation
Hydroformylations
Catalysis for Heterocycles
Bioinspired Homo- & Heterogeneous Catalysis
Gas Phase Oxidations
Oligomerisations
»Uni in Leibniz«
Polymer Chemistry and Catalysis
Catalysis and Organic Synthesis
Materialdesign
Vibrational Spectroscopy in Catalysis
Numerical Analysis
Catalytic Cycloadditions
Junior Research Groups
Catalytic Functionalization
Small Molecule Activation
Polymerchemie und Katalyse
News & Events
Events
Job and Career
Job Vacancies
The next generation of researchers
Equal Opportunities
Training
Good Scientific Practise
Common Information
Leibniz-Nordost
Institute
Organization
Analytical Services
Information technology
Administration
Public Relations
Equal Opportunities
Location
People
Search
Board
Heads of Departments
Group Leaders
Junior Research Groups
Heads of Service Departments
Alumni
Archive
Guests/ Lectures
Cover Gallery
Events
Besuch Bundespräsident
You are here:
Home
Research
Catalyst Discovery and Reaction Engineering
Catalyst Discovery and Reaction Engineering
Dr. David Linke
Currently the department comprises 3 research groups focusing on the following topics:
High-Throughput Technologies
(Dr. Uwe Rodemerck)
High-throughput catalyst development for various reactions
Robot-assisted automated material syntheses
Development of high-throughput tools
Optimisation strategies for catalyst development
Reaction Engineering
(Dr. David Linke)
Kinetics of catalytic reactions
Reactor and process design
Modeling und optimization
Information management
Reaction Mechanisms
(Dr. habil. Evgenii Kondratenko)
Transient mechanistic studies with isotopic traces
Micro-kinetic analysis with the aim of predicting catalytic performance under transient and steady-state conditions in a broad range of reaction parameters
Transient and steady-state reactor operation
Electronic properties in heterogeneous catalysis
Contact
Head of Department
Dr. David Linke