Synthetic Utilization of α-Aminoalkyl Radicals and Related Species in Visible Light Photoredox Catalysis

Abstract: Single electron oxidation of amines provides an efficient way to access synthetically useful α-aminoalkyl radicals as reactive intermediates. After the single electron oxidation of amines, fragmentation of the resulting radical cations proceeds to give the α-aminoalkyl radicals along with generation of a proton. In the synthetic utilization of the α-aminoalkyl radicals, precise control of single electron transfer is essential, because further oxidation of the α-aminoalkyl radicals occurs more easily than the s… Show more

“…Interestingly, the use of TiO 2 and ErB instead of the preformed ErB-TiO 2 was equally effective to promote the transformation (entry 12). As expected, ErB alone did not show any impact in the reaction outcome (entry 13) and the product yield was similar to the reactions performed without light/photocatalyst (entries [4][5]. Other semiconductor materials such as ZnO and BiVO 4 were inefficient to provide increased yields (entries 14-15).…”

“…[1][2] However, in most of the cases, stoichiometric amounts of sacrificial oxidants are necessary for manipulating the oxidation-state of the active transition-metal catalyst to enable the crucial redox events in the catalytic cycle. [3,4a-b] Recently, visible-light photo-redox catalysis has emerged as an alternative catalytic mode of redox manipulation [4] and the groups of Sanford, Rueping, and others have showcased its utility as catalytic internal as well as terminal oxidants in CÀ H bond activation reactions. [5,6] Generally, transition-metal based polypyridyl complexes, due to their high redox potentials and long excited-state life-times, are found effective to accomplish redox manipulation with high precision.…”

Enhancing Ru(II)‐Catalysis with Visible‐Light‐Mediated Dye‐Sensitized TiO₂ Photocatalysis for Oxidative C−H Olefination of Arene Carboxylic Acids at Room Temperature

“…Interestingly, the use of TiO 2 and ErB instead of the preformed ErB-TiO 2 was equally effective to promote the transformation (entry 12). As expected, ErB alone did not show any impact in the reaction outcome (entry 13) and the product yield was similar to the reactions performed without light/photocatalyst (entries [4][5]. Other semiconductor materials such as ZnO and BiVO 4 were inefficient to provide increased yields (entries 14-15).…”

“…[1][2] However, in most of the cases, stoichiometric amounts of sacrificial oxidants are necessary for manipulating the oxidation-state of the active transition-metal catalyst to enable the crucial redox events in the catalytic cycle. [3,4a-b] Recently, visible-light photo-redox catalysis has emerged as an alternative catalytic mode of redox manipulation [4] and the groups of Sanford, Rueping, and others have showcased its utility as catalytic internal as well as terminal oxidants in CÀ H bond activation reactions. [5,6] Generally, transition-metal based polypyridyl complexes, due to their high redox potentials and long excited-state life-times, are found effective to accomplish redox manipulation with high precision.…”

Enhancing Ru(II)‐Catalysis with Visible‐Light‐Mediated Dye‐Sensitized TiO₂ Photocatalysis for Oxidative C−H Olefination of Arene Carboxylic Acids at Room Temperature

“…Such intermediates can lose a hydrogen atom or a proton from an adjacent α‐carbon atom, thereby resulting either in electrophilic iminium cations that can be trapped by nucleophiles or in α‐amino radicals that can undergo coupling with electrophiles. Many photoredox catalytic methods based on these two principles were developed for the formation of C−C bonds in the α‐position to an amine …”

Visible‐Light Photocatalysis: Does It Make a Difference in Organic Synthesis?

“…[159] 4.1. Solche Zwischenstufen kçnnen ein Wasserstoffatom oder ein Proton von einem benachbarten a-Kohlenstoff verlieren, was entweder zu elektrophilen Iminiumkationen führt, die von Nucleophilen abgefangen werden kçnnen, oder zu a-Aminoradikalen, die eine Kupplung mit Elektrophilen eingehen kçnnen.…”

“…Basierend auf diesen beiden Prinzipien wurden viele photoredoxkatalytische Methoden zur Bildung von C-C-Bindungen in a-Position zu einem Amin entwickelt. [159]…”

Photokatalyse mit sichtbarem Licht: Welche Bedeutung hat sie für die organische Synthese?