Design and synthesis of a C4-symmetrical hard-soft ditopic metal receptor by calixarene-porphyrin coupling

Takeshi Nagasaki; Hiroyuki Fujishima; Masayuki Takeuchi; Seiji Shinkai

doi:10.1039/P19950001883

Design and synthesis of a C₄-symmetrical hard-soft ditopic metal receptor by calixarene-porphyrin coupling

Takeshi Nagasaki, Hiroyuki Fujishima, Masayuki Takeuchi, Seiji Shinkai

IMRAM - Materials-Measurement Hybrid Research Center

Kyushu University

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

A tetraphenylporphyrin capped with a calix[4]aryl amide through L-alanine pillars (compound 1) has been synthesized. Owing to C₄ symmetry in both the tetraphenylporphyrin and the calix[4]arene this molecule still retains C₄ symmetry. As the calix[4]aryl amide moiety can bind alkali metal cations, and the porphyrin moiety can bind transition metal cations, compound 1 acts as a host molecule with a hard-soft ditopic metal-binding site. It was found that the Zn^II complex of 1 (complex 1-Zn^II) can bind KI very strongly with log Kass = 5.23 (CHCI3:MeCN = 4:1 v/v; 25 °C) whereas KC104 is scarcely captured by 1-Zn^II. Absorption and fluorescence spectroscopic studies showed that I^- ion is bound to this cavity, interacting with both calix[4]arene-bound K+ through electrostatic attraction and porphyrin-bound Zn^II through coordination as an axial ligand. The results establish that complex 1-Zn^II acts as a unique ditopic receptor for I^- ion.

Original language	English
Pages (from-to)	1883-1888
Number of pages	6
Journal	Journal of the Chemical Society, Perkin Transactions 1
DOIs	https://doi.org/10.1039/P19950001883
Publication status	Published - 1995

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title = "Design and synthesis of a C4-symmetrical hard-soft ditopic metal receptor by calixarene-porphyrin coupling",

abstract = "A tetraphenylporphyrin capped with a calix[4]aryl amide through L-alanine pillars (compound 1) has been synthesized. Owing to C4 symmetry in both the tetraphenylporphyrin and the calix[4]arene this molecule still retains C4 symmetry. As the calix[4]aryl amide moiety can bind alkali metal cations, and the porphyrin moiety can bind transition metal cations, compound 1 acts as a host molecule with a hard-soft ditopic metal-binding site. It was found that the ZnII complex of 1 (complex 1-ZnII) can bind KI very strongly with log Kass = 5.23 (CHCI3:MeCN = 4:1 v/v; 25 °C) whereas KC104 is scarcely captured by 1-ZnII. Absorption and fluorescence spectroscopic studies showed that I- ion is bound to this cavity, interacting with both calix[4]arene-bound K+ through electrostatic attraction and porphyrin-bound ZnII through coordination as an axial ligand. The results establish that complex 1-ZnII acts as a unique ditopic receptor for I- ion.",

author = "Takeshi Nagasaki and Hiroyuki Fujishima and Masayuki Takeuchi and Seiji Shinkai",

year = "1995",

doi = "10.1039/P19950001883",

language = "English",

pages = "1883--1888",

journal = "Journal of the Chemical Society, Perkin Transactions 1",

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T1 - Design and synthesis of a C4-symmetrical hard-soft ditopic metal receptor by calixarene-porphyrin coupling

AU - Nagasaki, Takeshi

AU - Fujishima, Hiroyuki

AU - Takeuchi, Masayuki

AU - Shinkai, Seiji

PY - 1995

Y1 - 1995

N2 - A tetraphenylporphyrin capped with a calix[4]aryl amide through L-alanine pillars (compound 1) has been synthesized. Owing to C4 symmetry in both the tetraphenylporphyrin and the calix[4]arene this molecule still retains C4 symmetry. As the calix[4]aryl amide moiety can bind alkali metal cations, and the porphyrin moiety can bind transition metal cations, compound 1 acts as a host molecule with a hard-soft ditopic metal-binding site. It was found that the ZnII complex of 1 (complex 1-ZnII) can bind KI very strongly with log Kass = 5.23 (CHCI3:MeCN = 4:1 v/v; 25 °C) whereas KC104 is scarcely captured by 1-ZnII. Absorption and fluorescence spectroscopic studies showed that I- ion is bound to this cavity, interacting with both calix[4]arene-bound K+ through electrostatic attraction and porphyrin-bound ZnII through coordination as an axial ligand. The results establish that complex 1-ZnII acts as a unique ditopic receptor for I- ion.

AB - A tetraphenylporphyrin capped with a calix[4]aryl amide through L-alanine pillars (compound 1) has been synthesized. Owing to C4 symmetry in both the tetraphenylporphyrin and the calix[4]arene this molecule still retains C4 symmetry. As the calix[4]aryl amide moiety can bind alkali metal cations, and the porphyrin moiety can bind transition metal cations, compound 1 acts as a host molecule with a hard-soft ditopic metal-binding site. It was found that the ZnII complex of 1 (complex 1-ZnII) can bind KI very strongly with log Kass = 5.23 (CHCI3:MeCN = 4:1 v/v; 25 °C) whereas KC104 is scarcely captured by 1-ZnII. Absorption and fluorescence spectroscopic studies showed that I- ion is bound to this cavity, interacting with both calix[4]arene-bound K+ through electrostatic attraction and porphyrin-bound ZnII through coordination as an axial ligand. The results establish that complex 1-ZnII acts as a unique ditopic receptor for I- ion.

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ER -

Design and synthesis of a C₄-symmetrical hard-soft ditopic metal receptor by calixarene-porphyrin coupling

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