Stark spectroscopy of mixed-valence systems

Silverman, Lisa N.; Kanchanawong, Pakorn; Treynor, Thomas P.; Boxer, Steven G.

doi:10.1098/rsta.2007.2137

Cited by 19 publications

(27 citation statements)

References 17 publications

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“…Stark spectroscopy allows for the change in dipole moment between the ground and excited state to be determined. [56][57][58][59][60][61][62][63][64] For the oxalate bridged compounds of both Mo and W, the change in dipole moment is negligible. However, upon increasing the length of the bridge from oxalate to 1,4-terephthalate the Stark spectra indicate a more substantial change in dipole moment, which is found to be greater for the molybdenum complex than for the tungsten complex.…”

Section: [D-a-d]* Complexesmentioning

confidence: 99%

M2δ to ligand π-conjugation: testbeds for current theories of mixed valence in ground and photoexcited states of molecular systems

Chisholm

Lear

2011

Chem. Soc. Rev.

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Redox active quadruply bonded units, M(2), can be combined so that they either (i) are bridged by an organic linker or (ii) function as a bridge between two identical organic ligands. When two M(2) units are linked together by an organic group that affords M(2)δ-bridge π-conjugation the electronic structure of each M(2) unit is perturbed by the other in the ground state, the photoexcited states, and the mixed valence oxidized form. Similarly when a M(2) center links two organic π systems represented by L, the two organic units are coupled by Lπ*-M(2)δ-Lπ* interactions in their ground state, their photoexcited states, and the mixed valence reduced state. The photoexcited states of the neutral complexes (both case i and ii) provide examples of excited state mixed valence. In case (i), the positive charge may be localized on one dinuclear center or may be delocalized over both M(2) units. Similarly in (ii), the electron may be localized on one ligand or delocalized over both. In this tutorial review, spectroscopic studies (UV-vis-NIR absorption, steady state emission, EPR, and time resolved infrared) of these mixed valence systems employing carboxylate tethers are described and the data are discussed in terms of contemporary theories of mixed valence ions.

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Section: [D-a-d]* Complexesmentioning

confidence: 99%

M2δ to ligand π-conjugation: testbeds for current theories of mixed valence in ground and photoexcited states of molecular systems

Chisholm

Lear

2011

Chem. Soc. Rev.

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“…In their microscopic model of electroabsorption, the interaction with the modulating electric field is explicitly included in the Hamiltonian, and only the input parameters are defined and estimated in terms of molecular wave functions. Some progress has been as well achieved in taking into account the vibronic coupling mechanism in EA behavior of poly-nuclear Ru complexes of mixed valence properties, although the more tractable description is at best restricted here to one electronic transition coupled to one or two vibrational modes [ 39 , 40 ].…”

Section: Introductionmentioning

confidence: 99%

Electronic States of Tris(bipyridine) Ruthenium(II) Complexes in Neat Solid Films Investigated by Electroabsorption Spectroscopy

et al. 2022

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We present the electric field-induced absorption (electroabsorption, EA) spectra of the solid neat films of tris(bipyridine) Ru(II) complexes, which were recently functionalized in our group as photosensitizers in dye-sensitized solar cells, and we compare them with the results obtained for an archetypal [Ru(bpy)3]2+ ion (RBY). We argue that it is difficult to establish a unique set of molecular parameter values by discrete parametrization of the EA spectra under the Liptay formalism for non-degenerate excited states. Therefore, the experimental EA spectra are compared with the spectra computed by the TDDFT (time-dependent density-functional theory) method, which for the first time explains the mechanism of electroabsorption in tris(bipyridine) Ru complexes without any additional assumptions about the spectral lineshape of the EA signal. We have shown that the main EA feature, in a form close to the absorption second derivative observed in the spectral range of the first MLCT (metal-to-ligand charge transfer) absorption band in Ru(bpy)3(PF6)2, can be attributed to a delocalized and orbitally degenerate excited state. This result may have key implications for the EA mechanism in RBY-based systems that exhibit similar EA spectra due to the robust nature of MLCT electronic states in such systems.

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“…Barbara's investigations of intervalence absorption of both ground and excited states using femto-second spectroscopy (Reid et al 1995) takes us into a new and fascinating time-domain, with concomitant questions arising concerning the definition of localization and refinement of the concept (see also Lu et al 1995). In the present meeting, Boxer also discusses the use of Stark spectroscopy to probe IT transitions in systems near the class 2/3 borderline (Silverman et al 2008).…”

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confidence: 99%

Mixed valence: origins and developments

Day

Hush

Clark

2007

Phil. Trans. R. Soc. A.

144

109

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Mixed-valence compounds were recognized by chemists more than a century ago for their unusual colours and stoichiometries, but it was just 40 years ago that two seminal articles brought together the then available evidence. These articles laid the foundations for understanding the physical properties of such compounds and how the latter correlate with molecular and crystal structures. This introduction to a discussion meeting briefly surveys the history of mixed valence and sets in context contributions to the discussion describing current work in the field.

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Stark spectroscopy of mixed-valence systems

Cited by 19 publications

References 17 publications

M2δ to ligand π-conjugation: testbeds for current theories of mixed valence in ground and photoexcited states of molecular systems

M2δ to ligand π-conjugation: testbeds for current theories of mixed valence in ground and photoexcited states of molecular systems

Electronic States of Tris(bipyridine) Ruthenium(II) Complexes in Neat Solid Films Investigated by Electroabsorption Spectroscopy

Mixed valence: origins and developments

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