Intraligand Charge-Transfer Excited States in Re(I) Complexes with Donor-Substituted Dipyridophenazine Ligands

Larsen, Christopher B.; Salm, Holly van der; Clark, Charlotte A.; Elliott, Anastasia B. S.; Fraser, Michael G.; Horvath, Raphael; Lucas, Nigel T.; Sun, Xue-Zhong; George, Michael W.; Gordon, Keith C.

doi:10.1021/ic402082m

Cited by 59 publications

(107 citation statements)

References 114 publications

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“…TAA-th-BTD,i nw hich the TAA donor and BTD acceptor are free to adopt ac oplanar arrangement, exhibits an intense low-energy TAA !BTD CT band at l = 447 nm (black trace, e = 22,300 m À1 cm À1 ), consistent with previously reported D-A systems. [7] Thes econd lowest band (l = 351 nm, e = 25,800 m À1 cm À1 )a ppears to be consistent with ath!BTD CT transition. In the symmetrical TAA-th-BTD-th-TAA reference compound, the ortho substitution pattern around the central BTD acceptor sterically inhibits adoption of ac oplanar arrangement, and consequently the TAA !BTD CT band is hypsochromically shifted to about l = 415 nm (green trace) such that it becomes merely visible as ashoulder on the higher energy th!BTD CT band (l = 355 nm).…”

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confidence: 80%

Circular Photoinduced Electron Transfer in a Donor‐Acceptor‐Acceptor Triad

Larsen

Wenger

2017

Angew Chem Int Ed

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An electron-donor-acceptor-acceptor (D-A -A ) triad has been developed that provides the first proof-of-concept for a photoinitiated molecular circuit. After photoexcitation into an optical charge-transfer transition between D and A , subsequent thermal electron-transfer from A to A is followed by geometric rearrangement in the D -A -A charge-separated state to form an ion-pair contact. This facilitates "forward" charge recombination between A and D to complete the molecular circuit with an estimated quantum efficiency of 4 % in toluene at 298 K.

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confidence: 80%

Circular Photoinduced Electron Transfer in a Donor‐Acceptor‐Acceptor Triad

Larsen

Wenger

2017

Angew Chem Int Ed

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“…[48,49] This is expressed by Tsuboi's rule, which states that if the excitation wavelength is chosen to coincide with an electronic transition then vibrational bands will be enhanced in intensity if the vibrations mimic the structural distortion upon photoexcitation. [50,51] As structural distortion is related to the movement of electrons, empirical use of this relationship can be made to determine the donor/acceptor regions involved in an excited state.…”

Section: Resonance Raman Spectroscopymentioning

confidence: 99%

Probing the excited state nature of coordination complexes with blended organic and inorganic chromophores using vibrational spectroscopy

Horvath

Huff

Gordon

et al. 2016

Coordination Chemistry Reviews

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“…3). Whilst Suzuki couplings on dppz have been previously studied, 18,34 this study represents the first attempt at directly functionalizing dppz through other crosscoupling reactions. [ReCl(CO) 3 (dppz)] complexes were prepared utilizing literature methods for related complexes.…”

Section: Synthesis and Structurementioning

confidence: 99%

“…Solvatochromic behaviour has been observed in dppz-type ligands in which the emission has charge-transfer character. 34 For the complexes the data are less clear cut. Each complex shows two emission bands in room temperature solution, see Fig.…”

Section: Emissionmentioning

confidence: 99%

“…All ligands showed μs lifetimes of the transient absorbing states, see 10,20,34 Lifetimes can vary considerably with solvent and temperature, due to the environmental sensitivity of dppz, 8 and also depend on the nature of the probed state. 15 For example, Kuimova et al measured a 10 μs lifetime for [Re(CO) 3 ( py)(dppz-(CO 2 Et) 2 )] + in MeCN, while Dyer et al measured 3.5 μs for [Re(CO) 3 ( py)(dppz)] + in MeCN; in both cases this state is assigned as π,π* in nature.…”

Section: Transient Absorption Spectroscopymentioning

confidence: 99%

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Stretching the phenazine MO in dppz: the effect of phenyl and phenyl–ethynyl groups on the photophysics of Re(i) dppz complexes

et al. 2014

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A series of dipyrido[3,2-a:2',3'-c]phenazine (dppz)-based ligands have been synthesised in which phenyl or phenyl-ethynyl linkers are terminated by (t)Bu or CN units. The corresponding [ReCl(CO)3(L)] complexes are also prepared. Electrochemistry shows the ligand which contains a phenyl-ethynyl linker and CN substituent is most easily reduced (by 15 mV relative to the other ligands). All complexes are reduced and oxidised at similar potentials. Electronic absorption spectra are consistent with stabilisation of the LUMO by the binding of the metal centre, as complex spectra are red-shifted relative to their ligand. In addition, those containing phenyl-ethynyl linkers show spectra red-shifted (by 650 cm(-1)) relative to their phenyl-linked analogues. Raman and resonance Raman spectroscopy combined with DFT and TD-DFT calculations are consistent with ligands showing π,π* transitions, and complexes showing metal-to-ligand charge-transfer (MLCT) transitions as the lowest energy absorption. Ligands emit from the π,π* excited state (λem ranging from 450 to 470 nm in CH2Cl2). The complexes show emission from both π,π* and MLCT states; the λem(MLCT) lies at 650-666 nm. Transient lifetimes in CH2Cl2 are decreased by the CN substituent, as this increases knr. Transient resonance Raman spectra (TR(2)) of ligands show spectral features associated with the LC state, and the strong similarities between these and complex spectra support an LC excited state at 355 nm for the complexes. Two-colour TR(3) spectra show only small differences to ground state spectra, the most obvious being a decrease in intensity of C[triple bond, length as m-dash]C bands. For [ReCl(CO)3()] and [ReCl(CO)3()] an increase in intensity of a 1575 cm(-1) band attributed to the dppz˙(-) species suggests that these complexes have significant MLCT state population between 20-60 ns after photoexcitation.

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Intraligand Charge-Transfer Excited States in Re(I) Complexes with Donor-Substituted Dipyridophenazine Ligands

Cited by 59 publications

References 114 publications

Circular Photoinduced Electron Transfer in a Donor‐Acceptor‐Acceptor Triad

Circular Photoinduced Electron Transfer in a Donor‐Acceptor‐Acceptor Triad

Probing the excited state nature of coordination complexes with blended organic and inorganic chromophores using vibrational spectroscopy

Stretching the phenazine MO in dppz: the effect of phenyl and phenyl–ethynyl groups on the photophysics of Re(i) dppz complexes

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