Scope and Limitations of Baird's Theory on Triplet State Aromaticity: Application to the Tuning of Singlet–Triplet Energy Gaps in Fulvenes

Ottosson, Henrik; Kilså, Kristine; Chajara, Khalil; Piqueras, M.C.; Crespo, R.; Kato, Haruhisa; Muthas, Daniel

doi:10.1002/chem.200700362

Cited by 85 publications

(138 citation statements)

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“…There have also been numerous experimental observations in relation to excited-state aromaticity, particularly by Wan and colleagues, for example, by studying stable planar [4n]π-annulenes in their lowest triplet (T 1 ) and singlet excited (S 1 ) states 6,21-24 . Furthermore, Ottosson and colleagues observed the aromatic chameleon spectroscopic features of fulvene based on sensitization, in accord with their previous theoretical model 7,25,26 . Later it was shown through experimental studies involving solvatochromatic shifts that the S 1 states of the substituted fulvenes display similar effects in the corresponding T 1 states 7,27 .…”

supporting

confidence: 71%

Reversal of Hückel (anti)aromaticity in the lowest triplet states of hexaphyrins and spectroscopic evidence for Baird's rule

et al. 2015

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The reversal of (anti)aromaticity in a molecule's triplet excited state compared with its closed-shell singlet ground state is known as Baird's rule and has attracted the interest of synthetic, physical organic chemists and theorists because of the potential to modulate the fundamental properties of highly conjugated molecules. Here we show that two closely related bis-rhodium hexaphyrins (R26H and R28H) containing [26] and [28] π-electron peripheries, respectively, exhibit properties consistent with Baird's rule. In the ground state, R26H exhibits a sharp Soret-like band and distinct Q-like bands characteristic of an aromatic porphyrinoid, whereas R28H exhibits a broad absorption spectrum without Q-like bands, which is typical of an antiaromatic porphyrinoid. In contrast, the T-T absorption of R26H is broad, weak and featureless, whereas that of R28H displays an intense and sharp Soret-like band. These spectral signatures, in combination with quantum chemical calculations, are in line with qualitative expectations based on Baird's rule.

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supporting

confidence: 71%

Reversal of Hückel (anti)aromaticity in the lowest triplet states of hexaphyrins and spectroscopic evidence for Baird's rule

et al. 2015

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“…[6] Owing to the reversal of polarity in the S 0 and T 1 states, the singlet-triplet energy gaps of fulvenes can be varied widely. [7] We also deduced that the profile of the potentialenergy surface that describes T 1 -state Z/E photoisomerization of annulenyl-substituted olefins is closely connected to the number of p electrons of the substituent. [8] The possibility to use Baird's theory of triplet-state aromaticity to tailor the excited-state properties of molecules suggests that the theory could also be applied as a qualitative back-of-an-envelope tool for the design of molecules for functionalized materials.…”

Section: Introductionmentioning

confidence: 99%

Triplet‐State Aromaticity of 4nπ‐Electron Monocycles: Analysis of Bifurcation in the π Contribution to the Electron Localization Function

2008

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The pi contribution to the electron localization function (ELF) is used to compare 4npi- and (4n+2)pi-electron annulenes, with particular focus on the aromaticity of 4npi-electron annulenes in their lowest triplet state. The analysis is performed on the electron density obtained at the level of OLYP density functional theory, as well as at the CCSD and CASSCF ab initio levels. Two criteria for aromaticity of all-carbon annulenes are set up: the span in the bifurcation values DeltaBV(ELF(pi)) should be small, ideally zero, and the bifurcation value for ring closure of the pi basin RCBV(ELF(pi)) should be high (> or = 0.7). On the basis of these criteria, nearly all 4npi-electron annulenes are aromatic in their lowest triplet states, similar to (4n+2)pi-electron annulenes in their singlet ground states. For singlet biradical cyclobutadiene and cyclooctatetraene constrained to D4h and D8h symmetry, respectively, the RCBV(ELF(pi)) at the CASSCF level is lower (0.531 and 0.745) than for benzene (0.853), even though they have equal proportions of alpha- and beta-electrons.

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“…Recently, Kim and Osuka characterized the excited-state (anti)aromaticity in expanded porphyrins [17][18][19][20][21][22] . Ottosson and co-workers reported a series of "aromatic chameleons" that are prone to be aromatic in both the T 1 and S 1 states [23][24][25][26][27] . Note that Baird's rule can also be applied to the S 1 state [28][29][30] .…”

mentioning

confidence: 99%

Adaptive aromaticity in S0 and T1 states of pentalene incorporating 16 valence electron osmium

Chen

Shen

et al. 2018

Commun Chem

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Aromaticity is a fundamental chemical concept of ever-increasing diversity. According to Hückel's and Baird's rules, cyclic conjugated species with 4n+2 π-electrons are aromatic in the singlet electronic ground state (S 0 ) and antiaromatic in the lowest triplet state (T 1 ), and vice-versa. Thus, species with aromaticity in both states have not yet been reported. Here we carry out density functional theory calculations on recently synthesized organometallics, namely osmapentalyne and osmapentalenes, and demonstrate the first example (16-electron osmapentalene) of aromaticity in both S 0 and T 1 states, which we term adaptive aromaticity. Further electronic structure analysis reveals that the excitation pattern for the formation of the T 1 state plays a crucial role in the achievement of adaptive aromaticity. Our findings highlight the role of a transition metal in unorthodox excitation behavior, and may aid the design of adaptive aromatics for photochemical and molecular magnetism applications.

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Scope and Limitations of Baird's Theory on Triplet State Aromaticity: Application to the Tuning of Singlet–Triplet Energy Gaps in Fulvenes

Cited by 85 publications

References 51 publications

Reversal of Hückel (anti)aromaticity in the lowest triplet states of hexaphyrins and spectroscopic evidence for Baird's rule

Reversal of Hückel (anti)aromaticity in the lowest triplet states of hexaphyrins and spectroscopic evidence for Baird's rule

Triplet‐State Aromaticity of 4nπ‐Electron Monocycles: Analysis of Bifurcation in the π Contribution to the Electron Localization Function

Adaptive aromaticity in S0 and T1 states of pentalene incorporating 16 valence electron osmium

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