Supramolecular chemistry is a central topic in modern chemistry. It touches on many traditional disciplines, such as organic chemistry, inorganic chemistry, physical chemistry, materials chemistry, environmental chemistry, and biological chemistry. Supramolecular hosts, inter alia macrocyclic hosts, play critical roles in supramolecular chemistry. Calix[4]pyrroles, non-aromatic tetrapyrrolic macrocycles defined by sp hybridized meso bridges, have proved to be versatile receptors for neutral species, anions, and cations, as well as ion pairs. Compared to the parent system, octamethylcalix[4]pyrrole and its derivatives bearing simple appended functionalities, strapped calix[4]pyrroles typically display enhanced binding affinities and selectivities. In this review, we summarize advances in the design and synthesis of strapped calix[4]pyrroles, as well as their broad utility in molecular recognition, supramolecular extraction, separation technology, ion transport, and as agents capable of inhibiting cancer cell proliferation. Future challenges within this sub-field are also discussed.
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N-Confused strapped calix[4]pyrrole: the missing member of calix[4]pyrrole chemistry.
Org Biomol Chem
October 2024
Department of Chemistry and Vivekananda Centre for Research, Ramakrishna Mission Residential College, Narendrapur, Kolkata-700103, India.
The first example of N-confused strapped calix[4]pyrrole 5 is presented. The structural integrity of 5 and its regular isomer 4 was unambiguously confirmed by single crystal X-ray diffraction analysis. Anion binding studies using H NMR titration carried out in CDCl revealed a small but detectable tendency of 5 to interact with an anion.
View Article and Find Full Text PDFDiphenylpyrrole-Strapped Calix[4]pyrrole Extractant for the Fluoride and Chloride Anions.
Chemistry
November 2023
Department of Chemistry and Research Institute of Natural Science, Gyeongsang National University, Jinju, 52828, Korea.
The anion binding features of diphenylpyrrole-strapped calix[4]pyrrole 1 have been investigated by means of H NMR spectroscopy and ITC (isothermal titration calorimetry), as well as single crystal X-ray diffraction analyses. Receptor 1 bearing an auxiliary pyrrolic NH donor and solubilizing phenyl groups on the strap was found to bind F , Cl , and Br as their tetrabutylammonium salts with high affinity in DMSO-d . In addition, receptor 1 was found to extract the fluoride anion (as both its tetraethylammonium (TEA ) and tetrabutylammonium (TBA ) salts), as well as the chloride anion into chloroform-d from an aqueous source phase.
View Article and Find Full Text PDFTransmembrane Transport of Inorganic Phosphate by a Strapped Calix[4]pyrrole.
J Am Chem Soc
August 2023
Engineering of Molecular NanoSystems, Université libre de Bruxelles (ULB), Avenue F.D. Roosevelt 50, CP165/64, B-1050 Brussels, Belgium.
Synthetic anion receptors are increasingly being explored for the transport of anions across lipid membranes because of their potential therapeutic applications. A considerable amount of research focuses on the transport of chloride, whereas the transmembrane transport of inorganic phosphate has not been reported to date, despite the biological relevance of this anion. Here we present a calix[4]pyrrole with a bisurea strap that functions as a receptor and transporter for HPO, relying on the formation of eight hydrogen bonds and efficient encapsulation of the anion.
View Article and Find Full Text PDFPhotoswitching of halide-binding affinity and selectivity in dithienylethene-strapped calix[4]pyrrole.
Chem Commun (Camb)
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Leiden Institute of Chemistry, Leiden University, Einsteinweg 55, Leiden 2333 CC, The Netherlands.
Dithienylethene-strapped calix[4]pyrrole is isomerized by 300/630 nm light between ring-open and -closed isomers, which affects the size of the anion binding site. Where for chloride this results in only a small change in affinity, that of the larger bromide and iodide ions is majorly affected, resulting in altered selectivity.
View Article and Find Full Text PDFFluorescent copolymer aggregate sensor for lithium chloride.
Chem Sci
April 2023
Department of Chemistry, The University of Texas at Austin 105 East 24th Street, Stop A5300 Austin Texas 78712 USA
We report a copolymeric fluorescent sensor that is selective for lithium chloride. The two constituent polymers comprise pendent triphenylethylene (TPE) moieties for aggregate induced emission (AIE) along with either strapped-calix[4]pyrrole or secondary ammonium groups that drive aggregation self-assembly upon polymer mixing. Addition of LiCl in acetonitrile disrupts the strapped-calix[4]pyrrole/secondary ammonium chloride salt host-guest crosslinks leading to disaggregation of the polymer chains and a decrease in TPE emission.
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