Hydrogen bonding nature between calix[6]arene and piperidine/triethylamine

Sunwoo Kang; Sang Joo Lee; Shihai Yan; Kye Chun Nam; Jin Yong Lee

doi:10.1007/s10847-009-9642-6

Hydrogen bonding nature between calix[6]arene and piperidine/triethylamine

Sunwoo Kang, Sang Joo Lee, Shihai Yan, Kye Chun Nam, Jin Yong Lee

Department of Chemistry

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

5 Scopus citations

Abstract

We investigated the binding nature of the 1,2,3-alternate calix[6]arene with one piperidine, two piperidines, and two triethyl amines with a special emphasis on the hydrogen bonding networks by density functional theory calculations. The 1,2,3-alternate calix[6]arene strongly binds with piperidines and triethylamines at two different binding sites, exo and endo sites. In the two binding sites, the hydrogen bonding nature shows a characteristic difference. In the exo site, there formed only one hydrogen bond, while in the endo site, two hydrogen bonds except for the triethylamine. The proton transfer within the hydrogen bonding and the hydrogen bonding types, normal hydrogen bonding (NHB), short strong hydrogen bond (SSHB), and low barrier hydrogen bonding (LBHB), will be discussed in detail.

Original language	English
Pages (from-to)	67-73
Number of pages	7
Journal	Journal of Inclusion Phenomena and Macrocyclic Chemistry
Volume	66
Issue number	1
DOIs	https://doi.org/10.1007/s10847-009-9642-6
State	Published - Jan 2010

Keywords

Calix[6]arene
Hydrogen bonding
Molecular recognition
Piperidine
Potential surface
Proton transfer

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10.1007/s10847-009-9642-6

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title = "Hydrogen bonding nature between calix[6]arene and piperidine/triethylamine",

abstract = "We investigated the binding nature of the 1,2,3-alternate calix[6]arene with one piperidine, two piperidines, and two triethyl amines with a special emphasis on the hydrogen bonding networks by density functional theory calculations. The 1,2,3-alternate calix[6]arene strongly binds with piperidines and triethylamines at two different binding sites, exo and endo sites. In the two binding sites, the hydrogen bonding nature shows a characteristic difference. In the exo site, there formed only one hydrogen bond, while in the endo site, two hydrogen bonds except for the triethylamine. The proton transfer within the hydrogen bonding and the hydrogen bonding types, normal hydrogen bonding (NHB), short strong hydrogen bond (SSHB), and low barrier hydrogen bonding (LBHB), will be discussed in detail.",

keywords = "Calix[6]arene, Hydrogen bonding, Molecular recognition, Piperidine, Potential surface, Proton transfer",

author = "Sunwoo Kang and Lee, \{Sang Joo\} and Shihai Yan and Nam, \{Kye Chun\} and Lee, \{Jin Yong\}",

year = "2010",

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doi = "10.1007/s10847-009-9642-6",

language = "English",

volume = "66",

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T1 - Hydrogen bonding nature between calix[6]arene and piperidine/triethylamine

AU - Kang, Sunwoo

AU - Lee, Sang Joo

AU - Yan, Shihai

AU - Nam, Kye Chun

AU - Lee, Jin Yong

PY - 2010/1

Y1 - 2010/1

N2 - We investigated the binding nature of the 1,2,3-alternate calix[6]arene with one piperidine, two piperidines, and two triethyl amines with a special emphasis on the hydrogen bonding networks by density functional theory calculations. The 1,2,3-alternate calix[6]arene strongly binds with piperidines and triethylamines at two different binding sites, exo and endo sites. In the two binding sites, the hydrogen bonding nature shows a characteristic difference. In the exo site, there formed only one hydrogen bond, while in the endo site, two hydrogen bonds except for the triethylamine. The proton transfer within the hydrogen bonding and the hydrogen bonding types, normal hydrogen bonding (NHB), short strong hydrogen bond (SSHB), and low barrier hydrogen bonding (LBHB), will be discussed in detail.

AB - We investigated the binding nature of the 1,2,3-alternate calix[6]arene with one piperidine, two piperidines, and two triethyl amines with a special emphasis on the hydrogen bonding networks by density functional theory calculations. The 1,2,3-alternate calix[6]arene strongly binds with piperidines and triethylamines at two different binding sites, exo and endo sites. In the two binding sites, the hydrogen bonding nature shows a characteristic difference. In the exo site, there formed only one hydrogen bond, while in the endo site, two hydrogen bonds except for the triethylamine. The proton transfer within the hydrogen bonding and the hydrogen bonding types, normal hydrogen bonding (NHB), short strong hydrogen bond (SSHB), and low barrier hydrogen bonding (LBHB), will be discussed in detail.

KW - Calix[6]arene

KW - Hydrogen bonding

KW - Molecular recognition

KW - Piperidine

KW - Potential surface

KW - Proton transfer

UR - https://www.scopus.com/pages/publications/74749099247

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DO - 10.1007/s10847-009-9642-6

M3 - Article

AN - SCOPUS:74749099247

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VL - 66

SP - 67

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JO - Journal of Inclusion Phenomena and Macrocyclic Chemistry

JF - Journal of Inclusion Phenomena and Macrocyclic Chemistry

IS - 1

ER -

Hydrogen bonding nature between calix[6]arene and piperidine/triethylamine

Abstract

Keywords

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