2019
DOI: 10.1002/cctc.201901254
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Sulfonatocalixarene Counterion Exchange Binding Model in Action: Metal‐Ion Catalysis Through Host‐Guest Complexation

Abstract: p-Sulfonatocalixarene water soluble macrocyclic host receptors are known to form cooperative ternary complexes with complementary organic guest and metal cations. This property may be explored to enhance the interaction of weak nitrogen ligands with metal cations in a confined space showing some resemblance to metal-containing enzymes. However, the best of our knowledge, catalytic potential of this property remains unexplored. In this work the Ni 2 + catalyzed hydrolysis of a picolinate ester (2,4-dinitropheny… Show more

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Cited by 7 publications
(4 citation statements)
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“…The ability of molecular capsule to host one or more guests opens the path towards many applications, justifying the subsequent research growth in this field. Namely, the role of molecular capsule as a nanoreactor or a drug delivery device implies two basic criteria with respect to the design of a capsular host: a larger cavity and the possibility of reversible opening and closing, followed by the release or capture of a desired cargo [2–6] . A tool that enables these prerequisites is provided by non‐covalent synthesis, where self‐assembly or hetero‐assembly of molecular monomers into a capsule is realized via intermolecular interactions such as metal‐ligand coordination bonds, [7–11] hydrogen bonds, [12–14] ionic interactions, [15] halogen [16] or chalcogen [17] bonds.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…The ability of molecular capsule to host one or more guests opens the path towards many applications, justifying the subsequent research growth in this field. Namely, the role of molecular capsule as a nanoreactor or a drug delivery device implies two basic criteria with respect to the design of a capsular host: a larger cavity and the possibility of reversible opening and closing, followed by the release or capture of a desired cargo [2–6] . A tool that enables these prerequisites is provided by non‐covalent synthesis, where self‐assembly or hetero‐assembly of molecular monomers into a capsule is realized via intermolecular interactions such as metal‐ligand coordination bonds, [7–11] hydrogen bonds, [12–14] ionic interactions, [15] halogen [16] or chalcogen [17] bonds.…”
Section: Introductionmentioning
confidence: 99%
“…Namely, the role of molecular capsule as a nanoreactor or a drug delivery device implies two basic criteria with respect to the design of a capsular host: a larger cavity and the possibility of reversible opening and closing, followed by the release or capture of a desired cargo. [2][3][4][5][6] A tool that enables these prerequisites is provided by non-covalent synthesis, where self-assembly or hetero-assembly of molecular monomers into a capsule is realized via intermolecular interactions such as metal-ligand coordination bonds, [7][8][9][10][11] hydrogen bonds, [12][13][14] ionic interactions, [15] halogen [16] or chalcogen [17] bonds. The control over the association can be imposed by adjusting the physico-chemical properties of the solution (e. g. pH, [18,19] temperature, ionic strength).…”
Section: Introductionmentioning
confidence: 99%
“…Recently, a p -sulfonatocalix[6]arene (SCX6) molecular container was studied by our group. 25–28 SCX6 finds diverse applications in optical sensors, 29 switches and drug delivery carriers. 30 In the present endeavour, we demonstrate that the SCX6 macrocycle can be explored for designing materials exhibiting mechanochromism.…”
Section: Introductionmentioning
confidence: 99%
“…The use of calixarenes as a macrocyclic component is particularly attractive due to the possibility of modification by various functional groups on both sides of the macrocyclic platform. Moreover, calixarenes are capable of forming complexes with various ions and small organic molecules, which can enter the aromatic cavity of the calixarene framework. The guest molecules can also be bonded by calixarene substituents located outside the macrocyclic cavity. Sulfonated calix[4]­arenes typically form supraamphiphiles with cationic surfactant molecules due to electrostatic interactions. ,,, The complexation between the surfactant and the macrocycle in this case leads to a decrease in the critical aggregation concentration compared of the individual components.…”
Section: Introductionmentioning
confidence: 99%