Preparation of Poly(diiododiacetylene), an Ordered Conjugated Polymer of Carbon and Iodine

Sun, Aiwu; Lauher, Joseph W.; Goroff, Nancy S.

doi:10.1126/science.1124621

Cited by 367 publications

(257 citation statements)

References 33 publications

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“…In addition, this study provides valuable information that can be used to organize suitably diacetylenic molecules for solid-state polymerization, as demonstrated recently by Goroff and co-workers. [40] We also report that these molecules are capable of forming cocrystals with other organic modules that possess hydrogen-bonding capabilities, as testified by the X-ray crystal structure of 4. In this case, the N···I halogen-bonding scheme observed in 5 is disrupted because the imidazolyl group, the most basic moiety in the molecule, is part of the hydrogen-bonding network.…”

Section: Resultsmentioning

confidence: 93%

“…This "tour de force" was accomplished by forming halogenbonded complexes between diiododiacetylene and oxalamide-containing hosts terminated with nitrile groups at both ends. [40] In these host-guest complexes, the diacetylenic guest is suitably oriented for topochemical polymerization. Previous attempts to do the same using host molecules with pyridyl groups instead of nitrile groups had been unsuccessful as a result of steric problems.…”

Section: Introductionmentioning

confidence: 99%

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Molecular Assemblies from Imidazolyl‐Containing Haloalkenes and Haloalkynes: Competition between Halogen and Hydrogen Bonding

Bouchmella

Boury

Dutremez

et al. 2007

Chemistry A European J

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The structural characterization of molecular assemblies constructed from imidazolyl-containing haloalkenes and haloalkynes is reported. 1-(3-Iodopropargyl)imidazole (2) and 1-(2,3,3-triiodoallyl)imidazole (5) were synthesized from 1-propargylimidazole (1). In the solid state, these wholly organic modules self-assemble through N...I halogen-bonding interactions, thus giving rise to polymeric chains. The N...I interaction observed in 2 (d(N...I)=2.717 A, angle-spherical C(sp)-I...N=175.8 degrees) is quite strong relative to previously reported data. The N...I interaction in 5 (d(N...I)=2.901 A, angle-spherical C(sp2)-I...N=173.6 degrees) is weaker, in accordance with the order C(sp)-X<--base>C(sp2)-X<--base. Compound 5 was found to give a 1:1 cocrystal 4 with morpholinium iodide (6). In the X-ray crystal studies of 4, N...I halogen-bonding interactions similar to those observed in 5 were shown not to be present, as the arrangement of the molecules is governed by two interwoven hydrogen-bonding networks. The first network involves N-H...O interactions between nearby morpholinium cations, and the second network is based on N-H...N hydrogen bonding between morpholinium cations and imidazolyl groups. Both hydrogen-bonding schemes are charge-assisted. Halogen bonding is not completely wiped out, however, as the triiodoalkene fragment forms a halogen bond with an iodide anion in its vicinity (d(I...I)=3.470 A, angle-spherical C(sp2)-I...I=170.7 degrees). X-ray crystal studies of 6 show a completely different arrangement from that observed in 4, namely, N-H...O interactions are not present. In crystalline 6, morpholinium cations are interconnected through C-H...O bridges (d(H...O)=2.521 and 2.676 A), and the NH2+ groups interact with nearby iodide anions (d(H...I)=2.633 and 2.698 A).

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Section: Resultsmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Molecular Assemblies from Imidazolyl‐Containing Haloalkenes and Haloalkynes: Competition between Halogen and Hydrogen Bonding

Bouchmella

Boury

Dutremez

et al. 2007

Chemistry A European J

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“…Optimizing the electrostatic and charge transfer aspects have been successfully used in designing of drugs, liquid crystals, organic semiconductors, magnetic materials, nonlinear optical materials, and templates for solid synthesis. [12][13][14][15][16] Conventionally, halogen bonds have been divided into two classes, TypeI and Type II (Fig. 3), based solely on the bonding geometry.…”

Section: Halogen Bonds (Xb)mentioning

confidence: 99%

Halogen Bonding in Crystal Engineering

Ding¹,

Tuikka²,

Haukka³

2012

Recent Advances in Crystallography

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“…13,14 Others have built on Schmidt's strategy of topochemical solid-state reactions to make polydiacetylenes-potentially useful as optical limiters, waveguides, and thermometric sensors-directly from crystals of discrete diacetylene molecules that are aligned properly in the solid state. [15][16][17] New materials based on infinite frameworks, bounded only by their crystal dimensions, constructed from molecular "tinkertoys" held together by hydrogen bonding or metal-ligand coordination are emerging as promising candidates for molecular separations and gas storage. 18,19 More recently, the materials science of pharmaceutical compounds, which often consist of small-molecule crystals, has attracted considerable attention, owing to the importance of crystal form (i.e., polymorphs), phase stability, and mechanical properties in therapeutic formulations.…”

Section: Introductionmentioning

confidence: 99%

Molecules in the Solid State

Foxman¹,

Ward²

2007

MRS Bull.

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The design and synthesis of solid-state materials constructed from molecules has emerged as an important frontier of materials research. Molecular materials promise an unparalleled opportunity for systematic manipulation of solid-state properties and functions by using molecular design principles and capitalizing on the versatility of organic synthesis. Furthermore, the use of molecular components may produce considerable economic benefits, whether by reducing fabrication cost or through increases in performance. The articles in this issue of MRS Bulletin cover recent discoveries and developments based on materials with properties and functions that hinge on the characteristics of their molecular constituents. These materials promise significant advances in several technologies of substantial commercial interest, including organic light-emitting diodes, nonlinear optics, gas separations, chiral separations, and molecular magnets.

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Preparation of Poly(diiododiacetylene), an Ordered Conjugated Polymer of Carbon and Iodine

Cited by 367 publications

References 33 publications

Molecular Assemblies from Imidazolyl‐Containing Haloalkenes and Haloalkynes: Competition between Halogen and Hydrogen Bonding

Molecular Assemblies from Imidazolyl‐Containing Haloalkenes and Haloalkynes: Competition between Halogen and Hydrogen Bonding

Halogen Bonding in Crystal Engineering

Molecules in the Solid State

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