Uni.-Prof. Dr. Hermann Andreas Wegner
| ORCID: https://orcid.org/0000-0001-7260-6018 Researcher ID: P-3826-2019 |
Projects as principal investigator
2 of 4
- FOREST II - Neuartige Lignin-basierte Elektrolyte für den Einsatz in Redox-Flow-Batterien; Teilvorhaben 4: Chemische Synthese und Ligninspaltung
01/08/2020 - 31/07/2023
Federal Ministry of Food and Agriculture (BMLEH, BMEL) - Friction under molecular control
19/12/2019 - 31/12/2021
Volkswagen Foundation () - Validierung der Anwendung von Flusschemieverfahren für eine skalierbare Synthese von Cycloparaphenylenen
01/06/2019 - 30/06/2024
European Union (EU), Hessian Ministry of Economics, Energy, Transport and Housing (HMWEVW) - (B–N)2-Heterocyclen
07/05/2019 - 31/12/2022
German Research Foundation (DFG) - SURMEC - Molekulare Mechanismen der C-C Kopplungsreaktionen: Ein mikroskopischer Einblick in die 'on-surface' chemischen Bindungsprozesse
21/11/2018 - 31/12/2021
German Research Foundation (DFG)
Projects as co-investigator or project member
- Molekulare Mechanismen der C-C Kopplungsreaktionen: Ein mikroskopischer Einblick in die 'on-surface' chemischen Bindungsprozesse
01/09/2019 - 30/11/2022
German Research Foundation (DFG) - Molekulare Mechanismen der C-C Kopplungsreaktionen: Ein mikroskopischer Einblick in die 'on-surface' chemischen Bindungsprozesse
01/06/2019 - 31/08/2022
German Research Foundation (DFG) - GRK 2204 - Substitutionsmaterialien für nachhaltige Energietechnologien
01/01/2018 - 30/09/2020
German Research Foundation (DFG) - GRK 2204 - Substitutionsmaterialien für nachhaltige Energietechnologien
01/04/2016 - 30/09/2020
German Research Foundation (DFG)
Publications
1 of 9
- Deciphering the Mechanism of On-Surface Dehydrogenative C-C Coupling Reactions (2024)
- Journal of the American Chemical Society
Journal article - Static theoretical investigations of organic redox active materials for redox flow batteries (2024)
- Progress in Energy
Journal article - How Adsorption Affects the Energy Release in an Azothiophene- Based Molecular Solar-Thermal System (2023)
- Journal of Physical Chemistry Letters
Journal article - A Modular Synthesis of Substituted Cycloparaphenylenes (2022)2021)
- Chemistry - A European JournalAngewandte Chemie International Edition
Journal article - An Incremental System To Predict the Effect of Different London Dispersion Donors in All-meta-Substituted Azobenzenes (2022)
- Chemistry - A European Journal
Journal article - Azobenzene-Substituted Triptycenes: Understanding the Exciton Coupling of Molecular Switches in Close Proximity (2022)
- Chemistry - A European Journal
Journal article - Chemical bond imaging using torsional and flexural higher eigenmodes of qPlus sensors (2022)
- Nanoscale
Journal article - Continuous flow synthesis of azobenzenes via Baeyer-Mills reaction (2022)
- Beilstein Journal of Organic Chemistry
Journal article - Cycloparaphenylenes via [2+2+2] cycloaddition (2022)
- Chemical Communications
Journal article - Electrochemically Triggered Energy Release from an Azothiophene-Based Molecular Solar Thermal System (2022)
- Chemistry-Sustainability-Energy-Materials
Journal article - Synthesis of a Substituted [10]Cycloparaphenylene through [2+2+2] Cycloaddition (2022)
- European Journal of Organic Chemistry
Journal article - Unraveling the Electrochemistry of Verdazyl Species in Acidic Electrolytes for the Application in Redox Flow Batteries (2022)
- Chemistry of Materials
Journal article - Constructing covalent organic nanoarchitectures molecule by molecule via scanning probe manipulation (2021)
- Nature Chemistry
Journal article - London Dispersion in Alkanen als Lösungsmittel (2021)
- Angewandte Chemie
Journal article - London Dispersion in Alkane Solvents (
Journal article
