Length-Dependent Convergence and Saturation Behavior of Electrochemical, Linear Optical, Quadratic Nonlinear Optical, and Cubic Nonlinear Optical Properties of Dipolar Alkynylruthenium Complexes with Oligo(phenyleneethynylene) Bridges

Babgi, Bandar A.; Rigamonti, Luca; Cifuentes, Marie P.; Corkery, T. Christopher; Randles, Michael D.; Schwich, Torsten; Petrie, Simon; Stranger, Robert; Teshome, Ayele; Asselberghs, Inge; Clays, Koen; Samoć, Marek; Humphrey, Mark G.

doi:10.1021/ja902793z

Cited by 81 publications

(100 citation statements)

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“…The results from cyclic voltammetric studies on Ru4 , Ru6 , and Ru8 (Figure S81) reveal a fully reversible oxidation process for each complex at about 0.5 V, a potential similar to those for previously reported trans ‐[Ru(C≡CR)Cl(L 2 ) 2 ] complexes lacking acceptor groups (see, for example, Refs. ), together with an irreversible nitro‐centred reduction at about −1 V (Table ). Ruthenium complexes with 4‐nitrophenylethynyl ligands show oxidation potentials of about 0.7 V (see Ru1 , Table ), reducing on π‐system lengthening (see Ru2 and Ru3 , Table ).…”

Section: Resultsmentioning

confidence: 83%

“…The data are consistent with the longer π‐bridges in the present complexes further attenuating the electron‐withdrawing effect of the nitro on the ease of oxidation at the metal centre. The differences in oxidation potentials across the complexes are consistent with previous reports showing that increasing the length of the π‐bridge in dipolar ruthenium alkynyl complexes with OPE bridges modifies the oxidation potential on π‐system lengthening up to a tri(phenyleneethynylene) unit, the potential remaining invariant on further bridge‐lengthening …”

Section: Resultsmentioning

confidence: 92%

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Synthesis, Optical, Electrochemical, and Theoretical Studies of Dipolar Ruthenium Alkynyl Complexes with Oligo(phenylenevinylene) Bridges

et al. 2016

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The syntheses of oligo(p‐phenylenevinylene)s (OPVs) end‐functionalized with a ligated ruthenium alkynyl unit as a donor and a nitro as acceptor, namely trans‐[Ru{C≡C‐1‐C6H4‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H4‐4‐NO2}Cl(dppe)2] (Ru4), trans‐[Ru{C≡C‐1‐C6H4‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H4‐4‐NO2}Cl(dppe)2] (Ru6), and trans‐[Ru{C≡C‐1‐C6H4‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐Et2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(2‐ethyl‐n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H2‐2,5‐(2‐ethyl‐n‐hexyl)2‐4‐(E)‐CH=CH‐1‐C6H4‐4‐NO2}Cl(dppe)2] (Ru8), are reported, together with those of precursor alkynes. Their electrochemical properties were assessed by cyclic voltammetry (CV), their linear optical and quadratic nonlinear optical (NLO) properties assayed by UV/Vis‐NIR spectroscopy and hyper‐Rayleigh scattering studies at 1064 nm, respectively, and their linear optical properties in the formally RuIII state examined by UV/Vis‐NIR spectroelectrochemistry. Computational studies employing time‐dependent density functional theory were undertaken on model complexes to rationalize the optical observations.

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Section: Resultsmentioning

confidence: 83%

Section: Resultsmentioning

confidence: 92%

Synthesis, Optical, Electrochemical, and Theoretical Studies of Dipolar Ruthenium Alkynyl Complexes with Oligo(phenylenevinylene) Bridges

et al. 2016

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“…1 and 2, respectively. In both complexes, the palladium atoms showed the expected square planar coordination geometry with slight distortion, with the C acetylene ePdeC carbene bond angles in the range of 87.04(8) e 92.96 (10) . It is conceivable that a slight distortion from an ideal square planar arrangement could relieve steric interactions between bulky ligands.…”

Section: X-ray Diffraction Studiesmentioning

confidence: 96%

trans Bis-N-heterocyclic carbene bis-acetylide palladium(II) complexes

Koch

Garg

Blacque

et al. 2012

Journal of Organometallic Chemistry

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“…[34] The results obtained were calibrated against closed-aperture (CA) Z-scan measurements performed on a fused silica plate (4.66 mm thick), [35] and compared with measurements on an identical glass cell filled with the solvent only. These wavelengths were chosen because they correspond to about twice those of the 1PA maxima, giving optimum enhancement of the NLO responses while avoiding excessive 1PA.…”

Section: A C H T U N G T R E N N U N G [Cd Ii a C H T U N G T R E N Nmentioning

confidence: 99%

“…The total dipolar b 0 values determined for 3 and 6 ( % 10 À27 esu) are especially large for 3D chromophores and notably similar to those that we have determined previously for the related but distinct species 9 and 10 ( Figure 7), in which the NLO responses derive from MLCT and ILCT transitions that are directed away from the central metal. [11i] Cubic NLO studies: The new complex salts 1-6 were investigated by using the Z-scan technique, [34][35][36][37] affording the real and imaginary parts of g, together with the values of s 2 . [1] Efforts to assess the sensitivity of b to other factors (and to probe fundamental quantum limits) with purely organic dipoles have included electron-normalised off-resonant values b EN , [1f, 50] derived by scaling against the total number of effective p-bonding electrons (N eff ).…”

Section: Ict Absorption and Stark Spectroscopic Data For Complex Saltmentioning

confidence: 99%

Heptametallic, Octupolar Nonlinear Optical Chromophores with Six Ferrocenyl Substituents

Coe

Foxon

Helliwell

et al. 2013

Chemistry A European J

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New complexes with six ferrocenyl (Fc) groups connected to ZnII or CdII tris(2,2′‐bipyridyl) cores are described. A thorough characterisation of their BPh4− salts includes two single‐crystal X‐ray structures, highly unusual for such species with multiple, extended substituents. Intense, visible d(FeII)→π* metal‐to‐ligand charge‐transfer (MLCT) bands accompany the π→π* intraligand charge‐transfer absorptions in the near UV region. Each complex shows a single, fully reversible FeIII/II wave when probed electrochemically. Molecular quadratic nonlinear optical (NLO) responses are determined by using hyper‐Rayleigh scattering and Stark spectroscopy. The latter gives static first hyperpolarisabilities β0 reaching as high as approximately 10−27 esu and generally increasing with π‐conjugation extension. Z‐scan cubic NLO measurements reveal high two‐photon absorption cross‐sections σ2 of up to 5400 GM in one case. DFT calculations reproduce the π‐conjugation dependence of β0, and TD‐DFT predicts three transitions close in energy contributing to the MLCT bands. The lowest energy transition has octupolar character, whereas the other two are degenerate and dipolar in nature.

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Length-Dependent Convergence and Saturation Behavior of Electrochemical, Linear Optical, Quadratic Nonlinear Optical, and Cubic Nonlinear Optical Properties of Dipolar Alkynylruthenium Complexes with Oligo(phenyleneethynylene) Bridges

Cited by 81 publications

References 132 publications

Synthesis, Optical, Electrochemical, and Theoretical Studies of Dipolar Ruthenium Alkynyl Complexes with Oligo(phenylenevinylene) Bridges

Synthesis, Optical, Electrochemical, and Theoretical Studies of Dipolar Ruthenium Alkynyl Complexes with Oligo(phenylenevinylene) Bridges

trans Bis-N-heterocyclic carbene bis-acetylide palladium(II) complexes

Heptametallic, Octupolar Nonlinear Optical Chromophores with Six Ferrocenyl Substituents

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