A butadiyne-linked diruthenium molecular wire self-assembled on a gold electrode surface

Zhang, Li Yi; Zhang, Hua Xin; Ye, Shen; Wen, Hui; Chen, Zhong Ning; Osawa, Masatoshi; Uosaki, Kohei; Sasaki, Yōichi

doi:10.1039/c0cc03048a

Cited by 18 publications

(10 citation statements)

References 25 publications

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“…Compared with conventional IR spectra, in situ IR differential spectra can provide higher sensitivity and resolution for monitoring the course of a reaction and the existence of transient species or unstable intermediates 72. To better probe the character of these redox processes, in situ IR transmission differential spectra and conventional IR spectroscopic studies were carried out on complexes 4 a – e and 5 by using the ν (CO) band to evaluate the contributions of metal centers and bridging ligands to redox processes.…”

Section: Resultsmentioning

confidence: 99%

“…[72] To better probe the character of these redox processes, in situ IR transmission differential spectra and conventional IR spectroscopic studies were carried out on complexes 4a-e and 5 by using the n(CO) band to evaluatet he contributionso fm etal centers and bridging ligands to redox processes. The characteristic n(CO) vibrational frequencies for different redox states are listed in Table 4.…”

Section: Ir Spectroelectrochemistrymentioning

confidence: 99%

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Conformational Tuning of the Intramolecular Electronic Coupling in Molecular‐Wire Biruthenium Complexes Bridged by Biphenyl Derivatives

Kong

Xue

Jang

et al. 2015

Chemistry A European J

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The synthesis and characterization of a series of biphenyl-derived binuclear ruthenium complexes with terminal {RuCl(CO)(PMe3)3} moieties and different structural arrangements of the phenyl rings are reported. Electrochemical studies revealed that the two metal centers of the binuclear ruthenium complexes interact with each other through the biphenyl bridge, and the redox splittings ΔE1/2 show a strong linear correlation with cos(2) ϕ, where ϕ is the torsion angle between the two phenyl rings. A combination of electrochemical, UV/Vis/NIR, and in situ IR differential spectroelectrochemical analysis clearly showed that: 1) the intramolecular electronic couplings in the binuclear ruthenium complexes could be modulated by changing ϕ; 2) the electronic ground state of the mixed-valent cations changes from delocalized to localized through the biphenyl bridge with increasing torsion angle ϕ, that is, the redox processes of these complexes change from significant involvement of the bridging ligand to an oxidation behavior with less participation of the bridge.

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Section: Resultsmentioning

confidence: 99%

Section: Ir Spectroelectrochemistrymentioning

confidence: 99%

Conformational Tuning of the Intramolecular Electronic Coupling in Molecular‐Wire Biruthenium Complexes Bridged by Biphenyl Derivatives

Kong

Xue

Jang

et al. 2015

Chemistry A European J

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“…For the functionalization of Au NPs we used a tetrairon(III) complex with a propeller‐like structure, [Fe 4 (thioctic) 2 (dpm) 6 ] (Fe 4 ‐thioctic), where Hdpm is dipivaloylmethane and H 3 thioctic is a tripodal ligand obtained by esterification of (±)‐α‐lipoic acid (“thioctic acid”) with pentaerythritol (see Figure a). These cyclic disulfides derived from thioctic acid are known to interact strongly with metal surfaces and NPs . The two 1,2‐dithiolane rings located on opposite sides of the metal core indeed promote an efficient grafting of Fe 4 ‐thioctic on ultraflat gold substrates …”

Section: Resultsmentioning

confidence: 99%

Grafting Single Molecule Magnets on Gold Nanoparticles

Perfetti

Pineider

Poggini

et al. 2013

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The chemical synthesis and characterization of the first hybrid material composed by gold nanoparticles and single molecule magnets (SMMs) are described. Gold nanoparticles are functionalized via ligand exchange using a tetrairon(III) SMM containing two 1,2-dithiolane end groups. The grafting is evidenced by the shift of the plasmon resonance peak recorded with a UV–vis spectrometer, by the suppression of nuclear magnetic resonance signals, by X-ray photoemission spectroscopy peaks, and by transmission electron microscopy images. The latter evidence the formation of aggregates of nanoparticles as a consequence of the cross-linking ability of Fe4 through the two 1,2-dithiolane rings located on opposite sides of the metal core. The presence of intact Fe4 molecules is directly proven by synchrotron-based X-ray absorption spectroscopy and X-ray magnetic circular dichroism spectroscopy, while a detailed magnetic characterization, obtained using electron paramagnetic resonance and alternating-current susceptibility, confirms the persistence of SMM behavior in this new hybrid nanostructure

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“…The compounds which consist of a conjugated π system as a bridging, as it will reveal the electrontransfer ability of the different bridging structures and thereby their potential as “molecular wires” between reducible subunits. And the compounds have the sulfur which can generate an Au−S bond with the gold, the character has realized the direct measurement of the electrochemical properties ,,…”

Section: Resultsmentioning

confidence: 99%

“…The 1, 3‐diyne system is attractive candidates for molecular wires. Sasaki groupsuccessfully synthesized a 1, 3‐butadiynelinked diruthenium complex and brought onto the gold surface in a lying flat mode to form self‐assembled monolayers showing reversible multiple redox behaviors on the electrode surface. Mayor et al have synthesized the 1, 4‐di(pentathiophenyl)phenyl‐buta‐1, 3‐diyne and its ability to transfer electrons from one reducible subunit to the other was investigated by electrochemical and spectroelectrochemical methods, and the results indicated the suitability of diacetylene connections as active electrontransfer linkers between molecular entities.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Novel 1,4‐Di(o‐thioaryl)benzene Buta‐1,3‐diynes

et al. 2018

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The dimers of terminal alkynes were synthesized through a room temperature reaction which used (diacetoxyiodo)benzene as oxidizing agent and acetonitrile as solvent. The structures were characterized by 1H NMR, 13C NMR. The electrochemical and spectrochemical properties of the compounds were also characterized by cyclic voltammetry and UV spectroscopy. Meanwhile, the single crystal X‐ray analysis of the model compound was discussed.Introduction of the thioaryl group in ortho position lead to the red shift of the UV absorption peaks, and the introduction of a large steric hindrance group reduced the influences of the intermolecular π‐π interactions on their electronic properties. Moreover the sulfur atom can form the stable S−Au bond with gold. These data indicated that compounds 3 b‐3 dare expected to be applied in the field of molecular wires.

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A butadiyne-linked diruthenium molecular wire self-assembled on a gold electrode surface

Cited by 18 publications

References 25 publications

Conformational Tuning of the Intramolecular Electronic Coupling in Molecular‐Wire Biruthenium Complexes Bridged by Biphenyl Derivatives

Conformational Tuning of the Intramolecular Electronic Coupling in Molecular‐Wire Biruthenium Complexes Bridged by Biphenyl Derivatives

Grafting Single Molecule Magnets on Gold Nanoparticles

Synthesis and Characterization of Novel 1,4‐Di(o‐thioaryl)benzene Buta‐1,3‐diynes

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