Innocent Deelectronation Chemistry - From the unified redox scale valid in all solvents to innocent deelectronation chemistry in innocent solvents

ERC (European Research Council)HORIZON-ERCID: 101052935
EC Contribution
€24,988
Consortium Size
1 orgs
Start Year
2022
Summary

The elementary steps underlying the reversible addition and removal of electrons from matter M Metals, Molecules or Materials are the fundament to describe redox chemistry, electrocatalysis and electrochemical energy storage. However, the electrochemical potentials of reaction partners are only comparable within one solvent. This is a consequence of the solvent specific standard states.For this reason, it is a Grand Challenge to establish a Unified Redox Scale to compare electrochemical potentials in all media without extra-thermodynamic assumptions. To achieve this, we use an ideal Ionic Liquid Salt Bridge setup to measure the Gibbs transfer energies between different solvents. The measured values, corrected for residual liquid junction potential contributions, will be used to directly connect potentials to the aqueous scale. This unifying solvent-independent scale will allow for knowledge-based comparison and selection of reagents for redox reactions in the next sections.Reagents for deelectronation (removal of an e) at high potential are scarcely available. Hence, we prepare perhalogenated radical cation salts that act as innocent Deelectronators (iD+) with high unified redox potentials. An iD+ converts a given neutral M to the naked cation M+. iD+-salts are straightforwardly accessible and room-temperature stable materials. Conveniently, they are in part weighable in air. Combined with suitable non-reactive, weakly coordinating but polar innocent solvents and robust weakly coordinating anions, reactive cation salts are accessible.Such reversible iD+-mediated redox-processes at high potential are appealing for electrosynthesis and -catalysis. To generate, study and apply these systems, we introduce a generally applicable innocent solvent family compatible with the high potential of iD+ and M+ also with commercially available anions. Suitable iD+/solvent couples for targeted reactions are selected based on their position on the unified redox scale.

Consortium (1)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (10)
Gold carbonyl cations and beyond: homoleptic gold(i) complexes with P4 and P4S3 and the half-sandwich cation [Au(C6H6)(CO)]+
Chemical Communications· 2024DOI
Manuel Schmitt, Sarah Nestle, Valentin Radtke, Ingo Krossing
Nature Communications
Nature Communications· 2024DOI
Christian Armbruster; Malte Sellin; Matthis Seiler; Tanja Würz; Friederike Oesten; Maximilian Schmucker; Tabea Sterbak; Julia Fischer; Valentin Radtke; Johannes Hunger; Ingo Krossing
Nutzung des Perfluornaphthalin‐Radikalkations als selektiver Deelektronierer zur Erzeugung einer Vielzahl stark oxidierender reaktiver Kationen
Angewandte Chemie· 2024DOI
Malte Sellin; Julie Willrett; David Röhner; Tim Heizmann; Julia Fischer; Matthis Seiler; Celia Holzmann; Tobias A. Engesser; Valentin Radtke; Ingo Krossing
Synthesis and Characterization of a Copper Dinitrogen Complex Supported by a Weakly Coordinating Anion
Angewandte Chemie· 2024DOI
Julie Willrett, Manuel Schmitt, Vadim Zhuravlev, Malte Sellin, Przemysław J. Malinowski, Ingo Krossing
Video Documented Upscaled Synthesis of Salts of the Parent Carbaborate Ion [CB11H12]−, its Undecafluorinated Form [CHB11F11]− and Useful Starting Materials for its Introduction
Chemistry - Methods· 2024DOI
Jan Kulenkampff, Christian Armbruster, Johanna Drolshagen, Celine Regnat, Tina Wienold, Luisa Spari, Jana Fix, Tabea Sterbak, Harald Scherer, Ingo Krossing
Chemistry - A European Journal
Chemistry - A European Journal· 2023DOI
Valentin Radtke; Denis Priester; Agnes Heering; Carina Müller; Thorsten Koslowski; Ivo Leito; Ingo Krossing
Chemistry with weakly coordinating aluminates [Al(ORF)4]− and borates [B(ORF)4]−: From fundamentals to application
Comprehensive Inorganic Chemistry III· 2023DOI
A. Barthelemy, P. Dabringhaus, Eike Jacob, D. Röhner, M. Schmitt, M. Sellin, Ingo Krossing
Isolation, Structural and Physical Characterization as well as Reactivity of Persistent Acenium Radical Cation Salts
Chemistry - A European Journal· 2023DOI
Malte Sellin, Matthis Seiler, Maximilian Mayländer, Konstantin Kloiber, Valentin Radtke, Stefan Weber, Sabine Richert, Ingo Krossing
Synthesis and Characterization of a Stable Nickelocenium Dication Salt
Angewandte Chemie· 2023DOI
Jan Rall, Max Lapersonne, Marcel Schorpp, Ingo Krossing
Transition Metal Carbonyl Cations: Synthetic approaches, Characterization & Follow-Up Chemistry
Accounts of Chemical Research· 2023DOI
Malte Sellin, Ingo Krossing
Other Results (1)
Periodic Reporting for period 1 - InnoChem (Innocent Deelectronation Chemistry - From the unified redox scale valid in all solvents to innocent deelectronation chemistry in innocent solvents)