Halogen‐Bonded Assemblies of Arylene Imides and Diimides: Insight from Electronic, Structural, and Computational Studies

Mandal, Kalyanashis; Bansal, Deepak; Kumar, Yogendra; Rustam,; Shukla, Jyoti; Mukhopadhyay, Pritam

doi:10.1002/chem.202001706

Cited by 9 publications

(6 citation statements)

References 104 publications

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“…14 Thus, the persistent search for new electron-deficient π-scaffolds continues. 15–25 A notable recent example is the synthesis of electron-deficient anthracene diimides. 16 a , b To further expand the repertoire of radical anions, synthetic tailorability at the imide O atoms as well as the core- and bay-/non-bay-positions in NDIs and PDIs, respectively, can be performed to access a large number of molecules with moderate to strong π-acidic surfaces suitable for electron injection and generation of long-lived radical anions.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, optical and redox attributes of core-/bay-substituted thionated NDIs, PDIs and their diverse radical anions

Mandal,

Yadav,

Saini

et al. 2023

J. Mater. Chem. C

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Section: Introductionmentioning

confidence: 99%

Synthesis, optical and redox attributes of core-/bay-substituted thionated NDIs, PDIs and their diverse radical anions

Mandal,

Yadav,

Saini

et al. 2023

J. Mater. Chem. C

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“…[66] Isocyanide 2 was synthesized from commercial durene accordingly to the four-step procedure detailed in the Supporting Information. [67][68] NMR spectra were recorded on Bruker AVANCE III 400 spectrometers in CDCl 3 at ambient temperature (at 400 and 100 MHz for 1 H and 13 XRD studies: XRD experiments were performed using Xcalibur, Eos (1 • 1,4-FIB and 1 • TIE) and XtaLAB Sinergy, Single source at home/ near, HyPix (1 • 4,4'-FIBP and 2 • 1,4-FIB) diffractometers. All crystals were kept at 100 K during data collection.…”

Section: Methodsmentioning

confidence: 99%

“…[10] Although a number of reports focused on (or related to) HaB demonstrates an impressive growth, some little-studied areas still remain open for further studies. In particular, among the nucleophilic centers that form HaBs, non-metal atoms bearing electron lone pair(s) (abbreviated as LP(s)) such as N, O, a halogen, [8,[11][12][13][14] and π-systems (combining several atoms), [13,[15][16][17] and even metal-donating metal sites [18] are most often applied to provide a HaB-involving pairing. However, the reported HaBs with a carbon atom's lone pair, functioning as a HaB acceptor, are very rare and such C-based σ-hole acceptors in the condensed phases are known only for carbene and isocyanide species.…”

Section: Introductionmentioning

confidence: 99%

Halogen Bond‐Involving Supramolecular Assembly Utilizing Carbon as a Nucleophilic Partner of I⋅⋅⋅C Non‐covalent Interaction

Smirnov

Mikherdov

Rozhkov

et al. 2023

Chemistry An Asian Journal

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Co-crystallization of 180°-orienting σ-hole-accepting tectons, namely, 1,4-diisocyanobenzene (1) and 1,4diisocyanotetramethylbenzene (2), with such homoditopic halogen bond donors as 1,4-diiodotetrafluorobenzene (1,4-FIB) and 4,4'-diiodoperfluorobiphenyl (4,4'-FIBP) afforded cocrystals 1 • 1,4-FIB, 1 • 4,4'-FIBP, and 2 • 1,4-FIB. Their solid-state structures exhibit 1D-supramolecular arrangements, which are based on poorly explored I•••C halogen bonding; this study is the first in which the supramolecular assembly utilizing halogen bonding with a terminal C atom was performed. The use of the potentially tetrafunctional σ-hole accepting tetraiodoethylene (TIE) leads to supramolecular architecture of a higher dimension, 3D-framework, observed in the structure of 1 • TIE. DFT calculations, used to characterize the halogen bonding situation, revealed that the I•••C noncovalent interactions are moderately strong, ranging from À 4.07 in 1 • TIE to À 5.45 kcal/mol in 2 • 1,4-FIB. The NBO analysis disclosed that LP(C)!σ* charge transfer effects are relevant in all co-crystals.

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“…very low reduction potentials, red‐shifted optical features, stable radical anions and enhanced semiconducting properties compared to bis‐ and tetrabromo analogues. Furthermore, they extended their research by studying the effect of halogen bonding on a series of halo‐subtituted electron‐deficient π‐systems with varying scaffold sizes (phthalimide, pyromellitic diimide, naphthalenediimides or perylenediimide) for tuning their optical and electronic properties [117] . The self‐assembled systems were stabilized via Br⋅⋅⋅O, Br⋅⋅⋅Br, or Br⋅⋅⋅π halogen bonding, with some of them possessing all of these interactions simultaneously.…”

Section: Halogen Bonded Supramolecular Polymers and Materialsmentioning

confidence: 99%

Recent Developments in Polymeric Assemblies and Functional Materials by Halogen Bonding

Biswas

Das

2021

ChemNanoMat

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Polymers have long been known to us for their versatile utility in our daily lives. With many years of successful advancement in controlled polymer synthesis and supramolecular chemistry, currently an amalgamation of these two fields is becoming increasingly important for generating modern‐day emerging polymeric materials. Hydrogen bonding and other noncovalent interactions like π‐stacking, host‐guest interaction, electrostatic interaction, metal‐ligand coordination have been explored much to this context, unlike the recently emerged halogen bonding, which indeed shows advantageous features like superior hydrophobicity, directionality and polar solvent resistance compared to ubiquitous hydrogen bonding. Hence, rendering these properties of halogen bonding into polymeric domain for generating functional materials for application in advance nanotechnologies is highly desirable. In the recent years, substantial progress has been made in fulfilling this challenging goal. This is evident from the escalating number of scientific publications in this research area every year. In this minireview, we have summarized the most recent developments in the field of halogen bonded polymeric assemblies and supramolecular polymers and discussed them in the context of their emerging materials properties and functions. Emphasis is given on highlighting various design criteria adopted in crystal engineering, covalent and supramolecular polymers in the past five years for constructing diverse organic functional materials, viz. liquid crystals, photoresponsive and photochromic materials, biomaterials and gels, self‐healing materials and many others by virtue of this highly directional supramolecular tool. In conclusion, a brief perspective on the advantages, challenges and future prospects in this rapidly growing field of research is discussed.

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Halogen‐Bonded Assemblies of Arylene Imides and Diimides: Insight from Electronic, Structural, and Computational Studies

Cited by 9 publications

References 104 publications

Synthesis, optical and redox attributes of core-/bay-substituted thionated NDIs, PDIs and their diverse radical anions

Synthesis, optical and redox attributes of core-/bay-substituted thionated NDIs, PDIs and their diverse radical anions

Halogen Bond‐Involving Supramolecular Assembly Utilizing Carbon as a Nucleophilic Partner of I⋅⋅⋅C Non‐covalent Interaction

Recent Developments in Polymeric Assemblies and Functional Materials by Halogen Bonding

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