Fabienne Alary scite author profile

By means of Delta-SCF and time-dependent density functional theory (DFT) calculations on [Ru(LL)3]2+ (LL = bpy = 2,2'-bipyridyl or bpz = 2,2' -bipyrazyl) complexes, we have found that emission of these two complexes could originate from two metal-to-ligand charge-transfer triplet states (3MLCT) that are quasi-degenerate and whose symmetries are D3 and C2. These two states are true minima. Calculated absorption and emission energies are in good agreement with experiment; the largest error is 0.14 eV, which is about the expected accuracy of the DFT calculations. For the first time, an optimized geometry for the metal-centered (MC) state is proposed for both of these complexes, and their energies are found to be almost degenerate with their corresponding 3MLCT states. These [RuII(LL)(eta1-LL)2]2+ MC states have two vacant coordination sites on the metal, so they may react readily with their environment. If these MC states are able to de-excite by luminescence, the associated transition (ca. 1 eV) is found to be quite different from those of the 3MLCT states (ca. 2 eV).

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Adiabatic Versus Nonadiabatic Photoisomerization in Photochromic Ruthenium Sulfoxide Complexes: A Mechanistic Picture from Density Functional Theory Calculations.

Göttle

et al. 2011

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Polypyridine ruthenium sulfoxide complexes are intriguing compounds which can display both photochromic and electrochromic properties. These properties are based on the Ru-S → Ru-O linkage isomerization capability of the sulfoxide group. The photoisomerization mechanism is of particular importance in order to understand the photophysical properties of such molecules. Density functional theory calculations demonstrate that the main photoisomerization mechanism is nonadiabatic for the system under study in agreement with the experimental observations. Indeed, funnels for efficient radiationless decay back to the ground state are shown to be easily accessible compared to transition states on the adiabatic triplet potential energy surface. However, we highlight for the first time that triplet metal-centered states play a central role in the photoisomerization mechanism of these compounds.

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Establishing the Two-Photon Linkage Isomerization Mechanism in the Nitrosyl Complex trans-[RuCl(NO)(py)₄]²⁺ by DFT and TDDFT

et al. 2015

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The density functional theory calculations presented in this work allow the first rationalization of the full linkage photoisomerization mechanism of trans-[RuCl(NO)(py)4](2+), in both the forward and reverse directions. These mechanisms are consistent with the experimental data establishing that blue-light irradiation triggers the forward process, while red or IR photons trigger the reverse process. Characterization of the singlet and lowest triplet potential energy surfaces shows that, despite the unfavorable thermodynamic character of the forward process, the topologies of the surfaces and particularly some crucial surface crossings enable the isomerization. In the forward Ru-NO → Ru-ON direction, a sequential two-photon absorption mechanism is unraveled that involves a sideways-bonded metastable state. In contrast, in the reverse reaction, two mechanisms are proposed involving either one or two photons.

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Recent progress in ligand photorelease reaction mechanisms: Theoretical insights focusing on Ru(II) 3MC states

Soupart

Alary

Heully

et al. 2020

Coordination Chemistry Reviews

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The journal offers rapid publication of review articles on topics of current interest and importance in coordination chemistry. The term coordination chemistry is interpreted broadly, and includes aspects of organometallic, theoretical and bioinorganic chemistry. In general the reviews survey developments in a particular area during the last few years, or discuss the results obtained with a particular technique. The journal also incorporates special volumes containing annual reviews of main group chemistry, on transition metal group chemistry, and on organometallic chemistry. Good reviews are essential educational tools for those working in inorganic chemistry. Coordination Chemistry Reviews will continue to act as a focal point for informative critical surveys of inorganic and physical inorganic chemistry.

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Theoretical Characterization of the Lowest Triplet Excited States of the Tris-(1,4,5,8-tetraazaphenanthrene) Ruthenium Dication Complex

et al. 2008

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We present a theoretical study of the ground and the lowest triplet excited states of the tris-(1,4,5,8-tetraazaphenanthrene) ruthenium complex [Ru(tap)3]2+. Density functional theory (DFT) was used to obtain the relaxed geometries and emission energies (Delta-SCF), whereas time-dependent DFT (TD-DFT) was used to compute the absorption spectrum. Our calculations have revealed the presence of three low-lying excited-state minima, which may be relevant in the photophysical/photochemical properties of this complex. Two minima with similar energies correspond to the MLCT 3A2 and MLCT 3B metal-to-ligand charge-transfer states, the first one corresponding to a D3 structure, whereas the second is a slightly localized C2 species. The third and lowest one corresponds to the metal-centered MC 3A state and displays a pronounced C2 distortion. We have examined for the first time the localized character of the excitation in the computed MLCT states. In particular, we have evaluated the pseudorotation barrier between the Jahn-Teller C2 MLCT 3B minima in the moat around the D3 conical intersection. We have shown that the complex should be viewed as a delocalized [Ru3+(tap(-1/3))3]2+ complex in the lowest MLCT states, in agreement with subpicosecond interligand electron transfer observed by femtosecond transient absorption anisotropy study. Upper-bound estimates of the MLCT-->MC (3 kcal/mol) and MC-->MLCT (10 kcal/mol) activation energy barriers obtained from potential energy profiles in vacuum corroborate the high photoinstability of the MLCT states of the [Ru(tap)3]2+complex.

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Is photoisomerization required for NO photorelease in ruthenium nitrosyl complexes?

Garcı́a¹,

Alary²,

Boggio‐Pasqua³

et al. 2016

J Mol Model

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The factors that explain the competition between intramolecular NO linkage photoisomerization and NO photorelease in five ruthenium nitrosyl complexes were investigated. By applying DFT-based methods, it was possible to characterize the ground states and lowest triplet potential energy surfaces of these species, and to establish that both photoisomerization and photorelease processes can occur in the lowest triplet state of each species. This work highlights the crucial role of the sideways-bonded isomer, a metastable state also known as the MS2 isomer, in the photochemical loss of NO, while the results obtained also indicate that the population of the triplet state of this isomer is compulsory for both processes and show how photoisomerization and photorelease interfere. Graphical Abstract Illustration of the crucial role of the MS2 state in the photoreactivities of ruthenium nitrosyl complexes.

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Neutral d8 metal bis-dithiolene complexes: Synthesis, electronic properties and applications

Bonneval

Ching

Alary

et al. 2010

Coordination Chemistry Reviews

147

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Reversing the relative ³MLCT–³MC order in Fe(ii) complexes using cyclometallating ligands: a computational study aiming at luminescent Fe(ii) complexes

et al. 2015

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Following a computational approach, the use of strongly electron-donating cyclometallating ligands has allowed us to increase the (3)MC-(3)MLCT gap dramatically in Fe(ii) bis(tridentate) polypyridine complexes, and eventually to reverse the ordering between these states, yielding a (3)MLCT state that is clearly more stable than the (3)MC state. Simultaneously, the quintet excited states ((5)MC and (5)MLCT) are displaced away from the region (in terms of geometry and energy) where classical photophysics occur, allowing us to avoid magnetism. The situation is thus similar to that of classical ruthenium polypyridine complexes. This opens the way towards luminescent iron(ii) complexes, in particular Fe(ii)bis(6-phenyl-2,2'-bipyridine) Fe(NNC)(2).

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Fabienne Alary

Is the³MLCT the Only Photoreactive State of Polypyridyl Complexes?

Adiabatic Versus Nonadiabatic Photoisomerization in Photochromic Ruthenium Sulfoxide Complexes: A Mechanistic Picture from Density Functional Theory Calculations.

Establishing the Two-Photon Linkage Isomerization Mechanism in the Nitrosyl Complex trans-[RuCl(NO)(py)₄]²⁺ by DFT and TDDFT

Recent progress in ligand photorelease reaction mechanisms: Theoretical insights focusing on Ru(II) 3MC states

Theoretical Characterization of the Lowest Triplet Excited States of the Tris-(1,4,5,8-tetraazaphenanthrene) Ruthenium Dication Complex

Is photoisomerization required for NO photorelease in ruthenium nitrosyl complexes?

Neutral d8 metal bis-dithiolene complexes: Synthesis, electronic properties and applications

Reversing the relative ³MLCT–³MC order in Fe(ii) complexes using cyclometallating ligands: a computational study aiming at luminescent Fe(ii) complexes

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Fabienne Alary

Is the3MLCT the Only Photoreactive State of Polypyridyl Complexes?

Adiabatic Versus Nonadiabatic Photoisomerization in Photochromic Ruthenium Sulfoxide Complexes: A Mechanistic Picture from Density Functional Theory Calculations.

Establishing the Two-Photon Linkage Isomerization Mechanism in the Nitrosyl Complex trans-[RuCl(NO)(py)4]2+ by DFT and TDDFT

Recent progress in ligand photorelease reaction mechanisms: Theoretical insights focusing on Ru(II) 3MC states

Theoretical Characterization of the Lowest Triplet Excited States of the Tris-(1,4,5,8-tetraazaphenanthrene) Ruthenium Dication Complex

Is photoisomerization required for NO photorelease in ruthenium nitrosyl complexes?

Neutral d8 metal bis-dithiolene complexes: Synthesis, electronic properties and applications

Reversing the relative 3MLCT–3MC order in Fe(ii) complexes using cyclometallating ligands: a computational study aiming at luminescent Fe(ii) complexes

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Resources

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Is the³MLCT the Only Photoreactive State of Polypyridyl Complexes?

Establishing the Two-Photon Linkage Isomerization Mechanism in the Nitrosyl Complex trans-[RuCl(NO)(py)₄]²⁺ by DFT and TDDFT

Reversing the relative ³MLCT–³MC order in Fe(ii) complexes using cyclometallating ligands: a computational study aiming at luminescent Fe(ii) complexes