Covalently Scaffolded Inter‐π‐System Orientations in π‐Conjugated Polymers and Small Molecule Models

Smith, Rhett C.

doi:10.1002/marc.200900387

Cited by 21 publications

(19 citation statements)

References 50 publications

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“…This should be regarded as a transmolecular π-π conjugation 1 [23][24][25][26] which can reduce the triplet energy of Phe. Thus, Phe exists in the cocrystal as two states: an isolated state with π-holeÁ Á Áπ bonding between the 1,4-DBrTFB and Phe molecules in the columns and a delocalized state for Phe molecules located at inter-column positions, which may be significant in the modulation of luminescent behavior.…”

Section: Cocrystals By Pahs and Haloperfluorobenzenesmentioning

confidence: 99%

Halogen Bonding in the Design of Organic Phosphors

Pang

Jin

2014

Topics in Current Chemistry

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Halogen bonding as a new strategy for introducing heavy atom perturbers in defined stoichiometry in the design of organic phosphors is reviewed. Considering ten novel cocrystals assembled by polyaromatic hydrocarbons (PAHs) and their heterocyclic analogues and haloperfluorobenzenes using the new strategy, apart from biphenyl cocrystals they all phosphoresce strongly, showing that the new methodology can induce phosphorescence by a heavy atom effect. More interesting, the phosphorescence properties, including excitation/emission wavelengths and decay dynamics, show dependence on the structure of the PAHs and interaction patterns, which is very important and valuable in modulation of the expected colors of luminescent materials.

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Section: Cocrystals By Pahs and Haloperfluorobenzenesmentioning

confidence: 99%

Halogen Bonding in the Design of Organic Phosphors

Pang

Jin

2014

Topics in Current Chemistry

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“…[1][2][3][4][5][6][7][8] The intriguing properties of π-conjugated materials can be controlled as a function of nanostructure and self-assembly process in supramolecular assemblies. For the construction of nanostructured materials, the self-assembly of small molecules into supramolecular polymers has been widely adopted.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of conjugated polymeric nanochannels from star-shaped supramolecular liquid crystals containing two different photoreactive groups

Lee

2014

Liquid Crystals

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New conjugated polymeric nanochannels were prepared via photopolymerisation and core extraction of starshaped supramolecular liquid crystals formed by simple hydrogen bonding between a phloroglucinol core and pyridine derivatives containing two different photoreactive groups. The polymerisable supramolecular liquid crystal exhibited a discotic columnar mesophase. Photopolymerisation of supramolecular liquid crystalline monomer provided cross-linked conjugated polymeric columns in which the diacetylene and acrylate moieties were selectively polymerised along the vertical and horizontal axes, respectively. Chemical treatment of the crosslinked conjugated columns with sodium hydroxide resulted in the removal of the phloroglucinol core to produce the cross-linked conjugated polymeric nanochannels with an estimated effective pore diameter of about 1 nm. The controlled methodology in the present study can be used to design and fabricate conjugated nanoporous organic materials with intriguing ordered structures.

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“…Theoretical studies have suggested that a face‐to‐face π‐stacking interaction with a plane‐to‐plane distance of 3.2–4.0 Å is ideal for facilitating charge mobility through a CP film . Some investigators have sought to alleviate the complication of inter‐π‐system interaction influences on polymer properties by appending the polymers with sterically encumbered substituents to prevent close contacts between polymer chains .…”

Section: Introductionmentioning

confidence: 99%

“…Some investigators have sought to alleviate the complication of inter‐π‐system interaction influences on polymer properties by appending the polymers with sterically encumbered substituents to prevent close contacts between polymer chains . Other researchers have devised molecular scaffolding and covalent crosslinking strategies to constrain adjacent polymer chains in near‐ideal orientations to improving charge/energy transport through a material . Two of the scaffolding most relevant to the current work are the [2.2]paracyclophane (i.e., in P3 , Figure B) and the oxacyclophane (i.e., in M5 , M6 , CyM , and CyP , Figure ) scaffolding units.…”

Section: Introductionmentioning

confidence: 99%

“…Two of the scaffolding most relevant to the current work are the [2.2]paracyclophane (i.e., in P3 , Figure B) and the oxacyclophane (i.e., in M5 , M6 , CyM , and CyP , Figure ) scaffolding units. The [2.2]paracyclophane unit enforces a rigid face‐to‐face π‐stacking interaction between its two phenyl rings at a separation of 2.98 Å, a distance smaller than what can be achieved with polymer chains that are not covalently scaffolded . As a result, the through‐space interaction across adjacent segments held in place by the [2.2]paracyclophane unit would not be predictive of free polymer chains in a film.…”

Section: Introductionmentioning

confidence: 99%

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Conjugated Polymers Featuring Oxacyclophane‐Scaffolded π‐Stacking Interactions

Mangalum

Morgan

Tennyson

et al. 2014

Macro Chemistry & Physics

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An oxacyclophane framework is modifi ed to include π-conjugated segments positioned so as to allow an optimized face-to-face π-stacking interaction between them. This unique architecture is fi rst employed for the preparation of model compounds with defi ned interaction between two small molecular organic chromophores. The interaction allows facile through-space energy transfer between the chromophores when they are held in the appropriate geometry. The oxacyclophane is thus employed in a polymer with consecutive short stretches of phenylene ethynylene such that polymer chain conjugation requires through-space interaction between segments rather than the through-bond π-conjugation that typifi es traditional conjugated polymers. The extent of the through-space interactions along the polymer backbone is explored through photophysical measurements, calculations, X-ray diffraction, and comparison with a variety of model and control materials.

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Covalently Scaffolded Inter‐π‐System Orientations in π‐Conjugated Polymers and Small Molecule Models

Cited by 21 publications

References 50 publications

Halogen Bonding in the Design of Organic Phosphors

Halogen Bonding in the Design of Organic Phosphors

Fabrication of conjugated polymeric nanochannels from star-shaped supramolecular liquid crystals containing two different photoreactive groups

Conjugated Polymers Featuring Oxacyclophane‐Scaffolded π‐Stacking Interactions

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