Litcius/Paper detail

Utilizing the Perfluoronaphthalene Radical Cation as a Selective Deelectronator to Access a Variety of Strongly Oxidizing Reactive Cations

Malte Sellin, Julie Willrett, David Röhner, Tim Heizmann, Julia Fischer, Matthis Seiler, Celia Holzmann, Tobias A. Engesser, Valentin Radtke, Ingo Krossing

2024Angewandte Chemie International Edition15 citationsDOIOpen Access PDF

Abstract

Abstract A selective deelectronation reagent with very high potential of +2.00 (solution)/+2.41 V (solid‐state) vs. Fc +/0 and based on a room temperature stable perfluoronaphthalene (naphthalene F ) radical cation salt was developed and applied. The solid‐state deelectronation of commercial naphthalene F with [NO] + [F{Al(OR F ) 3 } 2 ] − generates [naphthalene F ] + ⋅[F{Al(OR F ) 3 } 2 ] − (OR F =OC(CF 3 ) 3 ) in gram scale. Thermochemical analysis unravels the solid‐state deelectronation potential of the starting [NO] + ‐reagent to be +2.34 V vs. Fc +/0 with [F{Al(OR F ) 3 } 2 ] − counterion, but only +1.14 V vs. Fc +/0 with the small [SbF 6 ] − ion. Selective reactions demonstrate the selectivity of [naphthalene F ] + ⋅ for deelectronation of a multitude of organ(ometall)ic molecules and elements in solution: providing the molecular structures of the acene dications [tetracene] 2+ , [pentacene] 2+ or spectroscopic evidence for the carbonyl complex of the ferrocene dication [Fc(CO)] 2+ , the [P 9 ] + cation from white phosphorus, the solvent‐free copper(I) salt starting from copper metal and the dicationic Fe(IV)‐scorpionate complex [Fe(sc) 2 ] 2+ .

Topics & Concepts

ChemistryOxidizing agentReagentCounterionRadical ionDicationInorganic chemistrySalt (chemistry)PhotochemistryMoleculeMedicinal chemistryIonPhysical chemistryOrganic chemistryAmmonia Synthesis and Nitrogen ReductionLuminescence and Fluorescent MaterialsAdvanced Chemical Physics Studies