Aryl-Extended and Super Aryl-Extended Calix[4]pyrroles: Design, Synthesis, and Applications

Escobar, Luis; Sun, Qingqing; Ballester, Pablo

doi:10.1021/acs.accounts.2c00839

Cited by 20 publications

(13 citation statements)

References 67 publications

(222 reference statements)

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“…[19][20][21][22][23] Octamethylcalix [4] pyrrole (omC4P) is a popular and versatile organic host molecule and binds to various charged or neutral species in bulk environments. [24][25][26][27] In this work, we report gas-phase NIPES studies on a set of host-guest anionic complexes omC4P •X À (X=F, Cl, Br, I, and SCN), in which the host neutral and guest anion interacts with each other via multiple hydrogen bonds. [24,28] Photodetaching these anionic complexes allows us to access them in their neutral charge state.…”

Section: Introductionmentioning

confidence: 99%

Organic Molecules Mimic Alkali Metals Enabling Spontaneous Harpoon Reactions with Halogens

Cao,

Wang

2024

Chemistry A European J

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The harpoon mechanism has been a milestone in molecular reaction dynamics. Until now, the entity from which electron harpooning occurs has been either alkali metal atoms or non‐metallic analogs in their excited states. In this work, we demonstrate that a common organic molecule, octamethylcalix[4]pyrrole (omC4P), behaves just like alkali metal atoms, enabling the formation of charge‐separated ionic bonding complexes with halogens omC4P+·X– (X= F–I, SCN) via the harpoon mechanism. Their electronic structures and chemical bonding were determined by cryogenic photoelectron spectroscopy of the corresponding anions and confirmed by theoretical analyses. The omC4P+·X– could be visualized to form from the reactants omC4P + X via electron harpooning from omC4P to X at a distance defined by the energy difference between the ionization potential of omC4P and electron affinity of X.

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Section: Introductionmentioning

confidence: 99%

Organic Molecules Mimic Alkali Metals Enabling Spontaneous Harpoon Reactions with Halogens

Cao,

Wang

2024

Chemistry A European J

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“…As methylene bridges can act as hinges, they have been used as important building blocks in the cyclization of planar aromatic units. − Owing to the broad applicability of methylene bridges, a variety of macrocyclic arenes, including calix[ n ]arenes, − calix[ n ]pyrrole, − cyclotriveratrylene, − and resorcin[ n ]arenes, − have been synthesized over recent decades. Compared with rigid and planar conjugated macrocycles, methylene-bridged macrocyclic arenes show conformational adaptability, which allows chirality recognition, − conformational response to guests, − and stimuli-responsive self-assembly. − Therefore, macrocyclic arenes can serve as interesting platforms in supramolecular chemistry.…”

Section: Introductionmentioning

confidence: 99%

Silapillar[n]arenes: Their Enhanced Electronic Conjugation and Conformational Versatility

Ohtani,

Akine,

Kato

et al. 2024

J. Am. Chem. Soc.

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During recent decades, methylene-bridged macrocyclic arenes have been widely used in supramolecular chemistry. However, their π-conjugations are very weak, as the methylene bridges disrupt the electronic communication between π orbitals of the aromatic units. Herein, we successfully synthesized a series of silapillar[n]arenes (n = 4, 6, and 8) using silylene bridging. These showed enhanced electronic conjugation compared with the parent pillar[n]arenes because of σ*−π* conjugation between σ* (Si−C) orbitals and π* orbitals of the benzenes. Owing to the longer Si−C bond compared with the C−C bond, silylene-bridging provides additional structural flexibility into the pillar[n]arene scaffolds; a strained silapillar[4]arene was formed, which is unavailable in the parent pillar[n]arenes because of the steric requirements. Furthermore, silapillar[n]arenes displayed interesting size-dependent structural and optical properties.

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“…Given the prime importance of porphyrins in various biological and chemical processes, porphyrin serves as a template for devising novel functional macrocyclic molecular entities by strategic structural modifications, leading to the development of a new research field — porphyrinoid chemistry. To date, a large number of structurally modified, ring-contracted, -isomeric, and -expanded porphyrinoids, e.g., corroles, 5 subporphyrins, 6 triphyrins, 7 calix[4]pyrroles, 8 carbaporphyrins, 9 pyriporphyrins, 10 cyclo[6]pyrroles, 11 and others, 12 have been studied. The large collection of molecules in the porphyrinoid arsenal demonstrates that the pyrrole unit is a privileged nitrogen-containing unit for designing new macrocycles.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Quinoline-Based Macrocycles: Synthesis, Properties, and Applications in Catalytic Reactions

Kumagai,

2024

Synthesis

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Macrocyclic compounds exhibit unique properties due to their large ring-shaped structures, which have captivated chemists in recent decades. These molecules exert specific functions in various applicable fields, such as chemistry, materials science, and biology. Crown ethers, calixarenes, and porphyrinoids, which contain several ether/phenol/pyrrole subunits, represent these molecular categories with unparalleled functional diversity. In contrast, quinoline-based macrocycles comprising the quinoline unit as a key element to construct specific ring shapes have received limited attention. In this minireview, we summarize the recent advances in oligoquinoline macrocycles TriQuinoline (TQ), oxa-TriQuinoline (o-TQ), TEtraQuinoline (TEQ), and other bridged quinoline-based macrocycles. Emphasis is placed on the synthesis, structure, and application of these molecules in organometallic and supramolecular chemistry, which may guide new molecular designs in the quinoline-based macrocycle family.1 Introduction2 Quinoline-Based Macrocycles2.1 TriQuinoline (TQ)2.2 Oxa-TriQuinoline (o-TQ)2.3 TEtraQuinoline (TEQ)2.4 Larger Quinoline-Based Macrocycles with Bridges3 Conclusion

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Aryl-Extended and Super Aryl-Extended Calix[4]pyrroles: Design, Synthesis, and Applications

Cited by 20 publications

References 67 publications

Organic Molecules Mimic Alkali Metals Enabling Spontaneous Harpoon Reactions with Halogens

Organic Molecules Mimic Alkali Metals Enabling Spontaneous Harpoon Reactions with Halogens

Silapillar[n]arenes: Their Enhanced Electronic Conjugation and Conformational Versatility

Recent Advances in Quinoline-Based Macrocycles: Synthesis, Properties, and Applications in Catalytic Reactions

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