Easy Ligand Activation in the Coordination Sphere of Ru inside the [PW11O39]7– Backbone

Abstract: Irradiation of the Keggin-type [PW11O39{Ru(NO)}]4− (Ru-NO) polyoxometalate in CH3CN results in rapid NO ligand elimination with the formation of [PW11O39{RuIII(CH3CN)}]4− (Ru-CH3CN). This complex offers an easy entry into the Ru-based chemistry of the {PW11Ru} complex. Attempts to substitute N3− for CH3CN in the presence of an NaN3 excess lead a variety of products: (i) [PW11O39{RuIII(N3)}]4− (Ru-N3); (ii) [PW11O39{RuIII(N4HC-CH3)}]4− (Ru-Tz) as a click-reaction product; and (iii) [PW11O39{RuII(N2)}]5− (Ru-N2)… Show more

“…31,78−81 In compound 1, the transition metal Ru site contains multiple d-electrons, allowing itself to exhibit good redox and catalytic properties. 27,82 According to the literature and experimental results, a possible reaction mechanism is proposed (Scheme 1). 77,83−89 First, in order to explore the electron transfer within Ru-POM under visible light, a solution containing 4-methoxybenzylamine (electron donor), acetoni- trile, and 1 was irradiated with visible light (λ > 400 nm) under an argon atmosphere, and the color of the solution changed from reddish brown to dark purple (Figure S9).…”

“…As a metal–oxygen cluster, POMs have a strong redox capacity and a homogeneous charge distribution, allowing for multiple electron transfer processes . Under light irradiation, the intramolecular charge is transferred from oxygen to metal to form a highly reactive excited POMs enabling the oxygen photolysis in multiple use cases, e.g., water oxidation, CO 2 reduction, pollutant degradation, and organic reactions. ,− In compound 1 , the transition metal Ru site contains multiple d-electrons, allowing itself to exhibit good redox and catalytic properties. , According to the literature and experimental results, a possible reaction mechanism is proposed (Scheme ). ,− First, in order to explore the electron transfer within Ru-POM under visible light, a solution containing 4-methoxybenzylamine (electron donor), acetonitrile, and 1 was irradiated with visible light (λ > 400 nm) under an argon atmosphere, and the color of the solution changed from reddish brown to dark purple (Figure S9).…”

Binuclear Ru(III)-Containing Polyoxometalate with Efficient Photocatalytic Activity for Oxidative Coupling of Amines to Imines

“…31,78−81 In compound 1, the transition metal Ru site contains multiple d-electrons, allowing itself to exhibit good redox and catalytic properties. 27,82 According to the literature and experimental results, a possible reaction mechanism is proposed (Scheme 1). 77,83−89 First, in order to explore the electron transfer within Ru-POM under visible light, a solution containing 4-methoxybenzylamine (electron donor), acetoni- trile, and 1 was irradiated with visible light (λ > 400 nm) under an argon atmosphere, and the color of the solution changed from reddish brown to dark purple (Figure S9).…”

“…As a metal–oxygen cluster, POMs have a strong redox capacity and a homogeneous charge distribution, allowing for multiple electron transfer processes . Under light irradiation, the intramolecular charge is transferred from oxygen to metal to form a highly reactive excited POMs enabling the oxygen photolysis in multiple use cases, e.g., water oxidation, CO 2 reduction, pollutant degradation, and organic reactions. ,− In compound 1 , the transition metal Ru site contains multiple d-electrons, allowing itself to exhibit good redox and catalytic properties. , According to the literature and experimental results, a possible reaction mechanism is proposed (Scheme ). ,− First, in order to explore the electron transfer within Ru-POM under visible light, a solution containing 4-methoxybenzylamine (electron donor), acetonitrile, and 1 was irradiated with visible light (λ > 400 nm) under an argon atmosphere, and the color of the solution changed from reddish brown to dark purple (Figure S9).…”

Binuclear Ru(III)-Containing Polyoxometalate with Efficient Photocatalytic Activity for Oxidative Coupling of Amines to Imines

“…Metal centers are capable of activating organic molecules, thereby leading to the functionalization of POM. This concept was demonstrated by Sokolov et al 179 Keggin-type polyoxotungstate modified with a Ru center [PW 11 O 39 {Ru III (N 3 )}] 4− was functionalized with a tetrazolyl group by activating acetonitrile and azide ligands in the ruthenium coordination sphere. Reported reaction conditions included high temperatures and organic solvents; the reaction is not selective.…”

Bioorthogonal chemistry of polyoxometalates – challenges and prospects

“…Metal centers are capable of activating organic molecules, thereby leading to the functionalization of POM. This concept was demonstrated by Sokolov et al 153 Keggin-type polyoxotungstate modified with a Ru center [PW11O39{Ru III (N3)}] 4− are functionalized with a tetrazolyl group by activating acetonitrile and azide ligands in the ruthenium coordination sphere. Reported reaction conditions include high temperatures and organic solvents, and the reaction is not selective.…”

Bioorthogonal Chemistry of Polyoxometalates – Challenges and Prospects