Solvent Effects on the Encapsulation of Divalent Ions by Benzo-18-Crown-6 and Benzo-15-Crown-5
Journal of Physical Chemistry A 119 巻 29 号
8097-8105 頁
2015-07-23 発行
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| ファイル情報(添付) | |
| タイトル ( eng ) |
Solvent Effects on the Encapsulation of Divalent Ions by Benzo-18-Crown-6 and Benzo-15-Crown-5
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| 作成者 |
Rizzo Thomas R.
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| 収録物名 |
Journal of Physical Chemistry A
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| 巻 | 119 |
| 号 | 29 |
| 開始ページ | 8097 |
| 終了ページ | 8105 |
| 抄録 |
We measure UV photodissociation (UVPD) spectra of cold benzo-15-crown-5 (B15C5) and benzo-18-crown-6 (B18C6) complexes with divalent ions (M2+ = Ca2+, Sr2+, Ba2+, and Mn2+), solvated with an H2O or a CH3OH molecule: M2+•B15C5•H2O, M2+•B15C5•CH3OH, M2+•B18C6•H2O, and M2+•B18C6•CH3OH. All the species show a number of sharp vibronic bands in the 36600–37600 cm–1 region, which can be attributed to electronic transitions of the B18C6 or B15C5 component. Conformer-specific IR spectra of these complexes are also obtained by IR-UV double-resonance spectroscopy in the OH stretching region. All the IR-UV spectra of the H2O complexes show IR bands at ~3610 and ~3690 cm–1; these bands can be assigned to the symmetric and asymmetric OH stretching vibrations of the H2O component. The CH3OH complexes also show the stretching vibration of the OH group at ~3630 cm–1. The H2O and the CH3OH components are directly bonded to the M2+ ion through the M2+•••O bond in all the complexes, but a small difference in the conformation results in a noticeable difference in the OH stretching frequency, which enables us to determine the number of conformers. For Ca2+, Sr2+, and Mn2+, the number of conformers for the B18C6 complexes is in the range of 2–5, which is clearly larger than complexes with B15C5 (1 or 2). However for Ba2+, the number of conformers with B18C6 (1 or 2) is almost the same as that with B15C5. This is probably because the Ba2+ ion is too large to be located in the cavity center of either B15C5 and B18C6, which provides an open site at the Ba2+ ion suitable for solvation with H2O or CH3OH. The more conformations a complex can take, the more entropically favored it is at non-zero temperatures. Hence, the larger number of conformations suggests higher stability of the complexes under solvated conditions, leading to a higher degree of ion encapsulation in solution.
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| 著者キーワード |
alkaline earth
transition metal
18-crown-6
15-crown-5
encapsulation
water
crown ether
infrared
ion trap
electrospray
solvent effect
ultraviolet
conformation
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| 内容記述 |
This work is partly supported by the Swiss National Science Foundation through grant 200020_152804 and École Polytechnique Fédérale de Lausanne (EPFL). YI and TE thank the support from JSPS through the program “Strategic Young Researcher Overseas Visits Program for Accelerating Brain Circulation”.
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| NDC分類 |
化学 [ 430 ]
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| 言語 |
英語
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| 資源タイプ | 学術雑誌論文 |
| 出版者 |
American Chemical Society
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| 発行日 | 2015-07-23 |
| 権利情報 |
Copyright (c) 2015 American Chemical Society
This document is the Accepted Manuscript version of a Published Work that appeared in final form in Journal of Physical Chemistry A, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.jpca.5b04450.
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| 出版タイプ | Author’s Original(十分な品質であるとして、著者から正式な査読に提出される版) |
| アクセス権 | オープンアクセス |
| 収録物識別子 |
[ISSN] 1089-5639
[ISSN] 1520-5215
[DOI] 10.1021/acs.jpca.5b04450
[DOI] https://doi.org/10.1021/acs.jpca.5b04450
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