Project Details
Projekt
FOR 2982: UNODE - Unusual Anode Reactions
Subject Area
Chemistry
Materials Science and Engineering
Physics
Thermal Engineering/Process Engineering
Materials Science and Engineering
Physics
Thermal Engineering/Process Engineering
Term
since 2019
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 413163866
No abstract available
DFG Programme
Research Units
Projects
- A multi-scale non-equilibrium molecular dynamics strategy to investigate electrochemical flow cells (Applicants Forero Martinez, Nancy Carolina ; Schmid, Friederike )
- Anodically Generated Platform Oxidizers as an Alternative to Oxygen Evolution and Anodically (Re)generated Electrocatalysts for Selective Conversion of Organic Compounds (Applicant Waldvogel, Siegfried R. )
- Coordination Funds (Applicant Schuhmann, Wolfgang )
- Electrocatalysis for alcohol oxidation, ammonia oxidation and organic transformations. From catalyst development to unified organic electrocatalysis (Applicant Schuhmann, Wolfgang )
- Electrocatalytic Oxidation of Ammonia to Nitrogen Oxides in Liquid Ammonia (Applicant Schüth, Ferdi )
- Electrochemical generation of storable organic oxidants for use in sustainable catalytic transformations (Applicant Gooßen, Lukas J. )
- Enabling the anodic electrooxidation of alcohols and N2 by optimization of active catalyst modified electrodes (Applicant Andronescu, Corina )
- Narrow gap flow electrolysis cells and the challenge of hydrogen bubbles – a combined approach via modelling and experiment (Applicants Schmid, Friederike ; Waldvogel, Siegfried R. )
- New 3d-transition metal-based materials for efficient anodic electrocatalysis (Applicant Behrens, Malte )
- Operando ATR-IR spectroscopy applied to investigate the mechanisms of alternative anodic reactions (Applicant Muhler, Martin )
- Toward an atomic-scale understanding of the nitrogen oxidation reaction over Pd-based electrodes: Combining density functional theory and descriptor-based analyses (TP 11) (Applicant Exner, Kai Steffen )
- Tuning selectivity of oxide electrocatalysts towards electrolytic production of organic N-derivatives and H2O2 (Applicant Bandarenka, Aliaksandr )
Spokesperson
Professor Dr. Wolfgang Schuhmann
