Anion-Induced Structural Diversity and Optical Chromism in a Series of Cyano-Bridged Heterometallic 3d-4f Coordination Polymers

Artizzu, Flavia; Pilia, Luca; Serpe, Angela; Mara, Dimitrije; Casula, Maria Francesca; Marchiò, Luciano; Deplano, Paola

doi:10.3390/molecules28062871

Cited by 5 publications

(6 citation statements)

References 46 publications

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“…38 . This band shows a notable hypsochromism in the cyanide-bridged heterometallic RuEr compound with respect to the parent Ru complex (λmax(RuEr) = 450 nm vs λmax(Ru) = 494 nm), which originates from the coordination of the CN groups to the Lewis acid Er(III) ion, as also observed in analogous cyanide-bridged Fe(II)-Ln(III) assemblies 37 . Such hypsochromic shift is also evident in the diffuse reflectance spectra of solid-state samples (Figure 3b) and results in a remarkable change in color of the parent Ru complex upon coordination to Er(III) both in solution and in the crystalline state (Figure 3c).…”

Section: Synthesis and Crystal Structure Descriptionsupporting

confidence: 54%

“…In this work, since the [Ru(bipy)2(CN)2] complex was intended to be further reacted to produce the heterometallic complex, purification steps were reduced to avoid time-consuming procedures. The obtained product (Ru) was then directly reacted with the erbium nitrate salt to obtain the heterometallic complex following a similar procedure previously used to afford heterometallic Fe-Ln architectures based on the Fe(II) analog [Fe(phen)2CN2] neutral complex 37 , where the nitrate counteranion remains coordinated to the Ln(III) metal center, serving as blocking ligand and dictating the geometry of the resulting compound. The reaction afforded crystals of the heterometallic tetranuclear [Ru2(bipy)4(CN)4Er2(NO3)4(H2O)4(ox)]⋅5H2O (RuEr) complex.…”

Section: Synthesis and Crystal Structure Descriptionmentioning

confidence: 99%

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Spectral tuning and emission enhancement through lanthanide coordination in a dual Vis-NIR emissive cyanide-bridged heterometallic Ru(II)-Er(III) complex

Mara,

Cai,

Bonabello

et al. 2024

Preprint

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Owing to their unique luminescent properties and photosensitizing capability, cyanoruthenium(II) complexes with diimine lig-ands are the subject of intense research striving for routes for tuning their electronic properties and improving their emission quantum yield. In this work, we describe the first example of a heterometallic d-f cyanide-bridged Ru(II)-Er(III) assembly ob-tained by the direct reaction of trivalent erbium salt with the neutral [Ru(bipy)2(CN)2] metalloligand. This strategy allows for accommodating inorganic negatively charged anions, such as nitrate and oxalate, in the coordination sphere of the lanthanide ion. As a result, a dimeric tetranuclear discrete molecular architecture is obtained, where the two constituting monomeric Ru(II)-CN-Er(III) units are bridged by an oxalate anion coordinating two Er(III) ions in a bis-bidentate fashion. Strikingly, this heter-ometallic compound shows intense dual emission in the visible and near-infrared spectral ranges under single-wavelength exci-tation both in solution and in the crystalline state. The effect of Er(III) coordination through a cyanide bridge is thoroughly dis-cussed, also with the support of DFT calculations, to highlight the factors that induce the observed spectral hypsochromism and, more importantly, the remarkable tenfold-increased emission quantum yield of the [Ru(bipy)2(CN)2] moiety in the visible range. We show that the described coordination mode induces an energy raise of the emissive 3MLCT state and even a more pronounced lifting of the non-emissive Ru(II) 3MC states, suppressing thermal deactivation channels. Furthermore, thanks to the reduced number of water molecules and quenching groups surrounding the lanthanide ion in the molecular architecture, rel-atively intense erbium emission at 1.5 μm telecom wavelength is detected through the sensitization from the Ru(II) metallolig-and. We suggest that this compound can find applications as efficient solid-state dual emitter and luminescent chemical sensor.

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Section: Synthesis and Crystal Structure Descriptionsupporting

confidence: 54%

Section: Synthesis and Crystal Structure Descriptionmentioning

confidence: 99%

Spectral tuning and emission enhancement through lanthanide coordination in a dual Vis-NIR emissive cyanide-bridged heterometallic Ru(II)-Er(III) complex

Mara,

Cai,

Bonabello

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…39 This band shows a notable hypsochromism in the cyanide-bridged heterometallic RuEr compound with respect to the parent Ru complex (λ max(RuEr) = 450 nm vs λ max(Ru) = 494 nm), which originates from the coordination of the CN groups to the Lewis acid Er(III) ion, as also observed in analogous cyanide-bridged Fe(II)−Ln(III) assemblies. 38 Such a hypsochromic shift is also evident in the diffuse reflectance spectra of solid-state samples (Figure 3b) and results in a remarkable change in color of the parent Ru complex upon coordination to Er(III) both in solution and in the crystalline state (Figure 3c). It is interesting to note that in the solid state, the spectral shape is significantly broadened (>100 nm) with respect to the solutions, as highlighted by the color differences for the two samples in the diverse phases illustrated in Figure 3c.…”

Section: Resultsmentioning

confidence: 80%

“…The spectra are characterized by a series of intense bands in the UV region and a prominent band in the visible, attributable to the [Ru(bipy) 2 (CN) 2 ] moiety in both compounds and typically assigned to 1 MLCT transitions as in most Ru(II) complexes . This band shows a notable hypsochromism in the cyanide-bridged heterometallic RuEr compound with respect to the parent Ru complex (λ max( RuEr ) = 450 nm vs λ max( Ru ) = 494 nm), which originates from the coordination of the CN groups to the Lewis acid Er(III) ion, as also observed in analogous cyanide-bridged Fe(II)–Ln(III) assemblies . Such a hypsochromic shift is also evident in the diffuse reflectance spectra of solid-state samples (Figure b) and results in a remarkable change in color of the parent Ru complex upon coordination to Er(III) both in solution and in the crystalline state (Figure c).…”

Section: Resultsmentioning

confidence: 99%

“…In this work, since the [Ru-(bipy) 2 (CN) 2 ] complex was intended to be further reacted to produce the heterometallic complex, purification steps were reduced to avoid time-consuming procedures. The obtained product (Ru) was then directly reacted with the erbium nitrate salt to obtain the heterometallic complex following a similar procedure previously used to afford heterometallic Fe-Ln architectures based on the Fe(II) analogue [Fe(phen) 2 CN 2 ] neutral complex, 38 where the nitrate counteranion remains coordinated to the Ln(III) metal center, serving as a blocking ligand and dictating the geometry of the resulting compound. The reaction afforded crystals of the heterometallic tetranuclear complex [Ru 2 A summary of the crystallographic parameters for RuEr is reported in Table 1.…”

Section: Resultsmentioning

confidence: 99%

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Spectral Tuning and Emission Enhancement through Lanthanide Coordination in a Dual Visible–Near-Infrared Emissive Cyanide-Bridged Heterometallic Ru(II)–Er(III) Complex

Mara,

Cai,

Bonabello

et al. 2024

Crystal Growth & Design

Self Cite

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Owing to their unique luminescent properties and photosensitizing capability, cyanoruthenium(II) complexes with diimine ligands are the subject of intense research striving for routes for tuning their electronic properties and improving their emission quantum yield. In this work, we describe a heterometallic d-f cyanide-bridged Ru(II)−Er(III) assembly obtained by the direct reaction of trivalent erbium salt with the neutral [Ru(bipy) 2 (CN) 2 ] (bipy = 2,2′-bipyridine) metalloligand. This strategy allows for accommodating inorganic negatively charged anions such as nitrate and oxalate in the coordination sphere of the lanthanide ion. As a result, a dimeric tetranuclear discrete molecular architecture is obtained, where the two constituting monomeric Ru(II)-CN-Er(III) units are bridged by an oxalate anion coordinating two Er(III) ions in a bis-bidentate fashion. Strikingly, this heterometallic compound shows intense dual emission in the visible and near-infrared spectral ranges under single-wavelength excitation in both solution and the crystalline state. The effect of Er(III) coordination through a cyanide bridge is thoroughly discussed, also with the support of DFT calculations, to highlight the factors that induce the observed spectral hypsochromism and, more importantly, the remarkable 10-fold-increased emission quantum yield of the [Ru(bipy) 2 (CN) 2 ] moiety in the visible range. We show that the described coordination mode induces an energy raise of the emissive triplet metal-to-ligand charge transfer ( 3 MLCT) state and even a more pronounced lifting of the nonemissive Ru(II) triplet metal-centered ( 3 MC) states, suppressing thermal deactivation channels. Furthermore, owing to the reduced number of water molecules and quenching groups surrounding the lanthanide ion in the molecular architecture, relatively intense erbium emission at 1.5 μm telecom wavelength is detected through sensitization from the Ru(II) metalloligand. We suggest that this compound can find applications as an efficient solid-state dual emitter.

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Low-dimensional coordination polymers based on cobalt(II) and aliphatic N,N’-dioxide: Syntheses, structures and spectroscopic characterization

Abasheeva,

Demakov,

Fedin

2024

Inorganica Chimica Acta

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Anion-Induced Structural Diversity and Optical Chromism in a Series of Cyano-Bridged Heterometallic 3d-4f Coordination Polymers

Cited by 5 publications

References 46 publications

Spectral tuning and emission enhancement through lanthanide coordination in a dual Vis-NIR emissive cyanide-bridged heterometallic Ru(II)-Er(III) complex

Spectral tuning and emission enhancement through lanthanide coordination in a dual Vis-NIR emissive cyanide-bridged heterometallic Ru(II)-Er(III) complex

Spectral Tuning and Emission Enhancement through Lanthanide Coordination in a Dual Visible–Near-Infrared Emissive Cyanide-Bridged Heterometallic Ru(II)–Er(III) Complex

Low-dimensional coordination polymers based on cobalt(II) and aliphatic N,N’-dioxide: Syntheses, structures and spectroscopic characterization

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