Minh-Viet Nguyen scite author profile

σ-Metalation of tetracene can change the emission color of and introduce new structural dimensionality to the organic chromophore. Two synthetic entries to σ-metallotetracenes have been explored, leading to emissive mononuclear (Ph 3 PAu I )-tetracene (1) and cis-[Br(Et 3 P) 2 Pt II ]-tetracene (2) and binuclear (R 3 PAu I ) 2 -tetracenyldiacetylide (R = Ph (4), Me ( 5)) and trans-[I(Et 3 P) 2 Pt II ] 2tetracenyldiacetylide (6). Metalation can lower the emission energy of tetracene up to 0.53 eV. The X(Et 3 P) 2 Pt II group (X = Br, I) has stronger perturbations on the tetracenyl ring than the R 3 PAu I group. σ-Metalation also leads to different crystal packing of the complexes and thus arrangements of the tetracenyl rings. Aurophilic attraction operates in 5, leading to self-assembly of the molecules into a novel honeycomb structure composed of helical Au I chains. In contrast to the other complexes, the crystal of 5 is not emissive, possibly due to efficient exciton delocalization.

show abstract

Platinum-Conjugated Homo- and Heterobichromophoric Complexes of Tetracene and Pentacene

Nguyen

Yip

2012

Organometallics

View full text Add to dashboard Cite

Homobichromophoric platinum(II) complexes containing tetracenyl rings (T-Pt-T) and pentacenyl rings (P-Pt-P) were synthesized by Sonogashira coupling between trans-[Pt(PEt 3 ) 2 I 2 ] and 5-ethynyl-12-[(triisopropylsilyl)ethynyl]tetracene (T-SiH) and 6-ethynyl-13-[(triisopropylsilyl)ethynyl]pentacene (P-SiH), respectively. A heterobichromophoric complex consisting of tetracenyl and pentacenyl rings (T-Pt-P) was generated by coupling P-SiH and platinated T-SiH. The homobichromophoric complexes were characterized by singlecrystal X-ray diffraction. The electronic absorption and emission spectra of the complexes were investigated. All the complexes displayed acene-based fluorescence. The emission spectrum of T-Pt-P showed dual emissions of the tetracenyl and pentacenyl rings. Monitoring the pentacenyl emission gave an excitation spectrum which resembled the absorption spectrum, suggesting the presence of intramolecular energy transfer from the singlet excited state of the tetracenyl ring to the singlet excited state of the pentacenyl ring.

show abstract

Pushing Pentacene-Based Fluorescence to the Near-Infrared Region by Platination

Nguyen

Yip

2011

Organometallics

View full text Add to dashboard Cite

A series of binuclear platinum complexes of pentacenyl-6,13-diacetylide with different auxiliary ligands were synthesized to probe the effect of metal coordination on electronic spectroscopy and photophysics, to determine the solid-state packing of the complexes, and to tune emission energy. The complexes with anionic, π-donating ligands showed absorption (687−696 nm) and fluorescence (710−726 nm) lower in energy than those with neutral, π-accepting ligands (662−666, 675−686 nm). Our work showed that coordination of Pt ions with π-donating anionic ligands to pentacenyl-6,13-diacetylide could move the fluorescence of the organic chromophore to the nearinfrared region (λ em 710−726 nm). The combined perturbations of alkynation and platination lowered the HOMO → LUMO transition up to 0.34 eV. ■ EXPERIMENTAL SECTIONGeneral Methods. All syntheses were carried out under a N 2 atmosphere. All the solvents used for synthesis and spectroscopic

show abstract

Sequence-Specific Synthesis of Platinum-Conjugated Trichromophoric Energy Cascades of Anthracene, Tetracene, and Pentacene and Fluorescent “Black Chromophores”

2013

View full text Add to dashboard Cite

A sequence-specific synthesis of trichromophoric energy cascades containing anthracenyl (A), tetracenyl (T), or pentacenyl (P) rings is achieved by coupling PtII ions and singly desilylated bis(triisopropylsilylethynyl)acenes (acene = anthracene, tetracene, or pentacene). Four sequences, T-P-T, P-T-P, A-P-T, and A-T-P, are generated. Absorption spectra of the triads show intense bands due to the S0 → S1 transitions of the acenes. The A-P-T and A-T-P, being able to absorb strongly throughout the entire visible region, are rare examples of “black chromophores”. Different sequences are shown to have different emission fingerprints. Emission spectra of A-P-T and A-T-P show that excitation at the S0 → S1 band of A gives rise to emissions from the S1 excited states of A, T, and P, implying the presence of energy transfer from the excited state of A to those of T and P.

show abstract

Ligand Perturbations on Fluorescence of Dinuclear Platinum Complexes of 5,12-Diethynyltetracene: A Spectroscopic and Computational Study

2013

View full text Add to dashboard Cite

To understand how the PtII ion perturbs the electronic structures of tetracene, 10 dinuclear [X(Et3P)2PtII]2-5,12-diethynyltetracene complexes with different auxiliary ligands were synthesized. Interactions between the PtII ion and 5,12-diethynyltetracene were probed spectroscopically and computationally. The dinuclear [X(Et3P)2PtII]2-5,12-diethynyltetracene complexes exhibit red-shifted absorption and fluorescence in comparison with those of 5,12-bis(triisopropylsilylethynyl)tetracene, with the neutral complexes with π-donating auxiliary ligands showing a larger red shift than the cationic complexes with π-accepting ligands. Electronic structures of the complexes and effects of the metal ions and the ligands on the electronic transitions of the complexes were investigated by TD-DFT calculations, the results of which showed that the electronic structure of the 5,12-diethynyltetracene core is perturbed by π interactions with the Pt fragments, the extent of which depends on the energies of the dπ orbitals of the Pt fragments.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Minh-Viet Nguyen

Gold(I) and Platinum(II) Tetracenes and Tetracenyldiacetylides: Structural and Fluorescence Color Changes Induced by σ-Metalation

Platinum-Conjugated Homo- and Heterobichromophoric Complexes of Tetracene and Pentacene

Pushing Pentacene-Based Fluorescence to the Near-Infrared Region by Platination

Sequence-Specific Synthesis of Platinum-Conjugated Trichromophoric Energy Cascades of Anthracene, Tetracene, and Pentacene and Fluorescent “Black Chromophores”

Ligand Perturbations on Fluorescence of Dinuclear Platinum Complexes of 5,12-Diethynyltetracene: A Spectroscopic and Computational Study

Contact Info

Product

Resources

About