ESI naphthylpyridines revisedSupplementary Information to the article Title: Self-assembly of...
Transcript of ESI naphthylpyridines revisedSupplementary Information to the article Title: Self-assembly of...
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Supplementary Information
to the article
Title: Self-assembly of cucurbiturils and cyclodextrins to supramolecular
millstones with naphthalene derivatives capable of translocations in the host
cavities
Authors: Artem I. Vedernikov,a Natalia A. Lobova,a Lyudmila G. Kuz’mina,b
Marina V. Fomina,a Yuri A. Strelenko,c Judith A. K. Howardd and Sergey P.
Gromova,e*
aPhotochemistry Center of RAS, FSRC “Crystallography and Photonics”, Russian Academy of
Sciences, ul. Novatorov 7A-1, Moscow 119421, Russian Federation; bN. S. Kurnakov Institute of
General and Inorganic Chemistry, Russian Academy of Sciences, Leninskiy prosp. 31, Moscow
119991, Russian Federation; cN. D. Zelinskiy Institute of Organic Chemistry, Russian Academy
of Sciences, Leninskiy prosp. 47, Moscow 119991, Russian Federation; dChemistry Department,
Durham University, South Road, Durham DH1 3LE, UK; eChemistry Department, M. V.
Lomonosov Moscow State University, Leninskie Gory 1-3, Moscow 119991, Russian Federation
Journal: New Journal of Chemistry
Table of Contents Page
1. Fig. S1 1H NMR spectrum of compound 1. 3
2. Fig. S2 1H NMR spectrum of compound 2. 4
3. Fig. S3 1H NMR spectrum of compound 3. 5
4. Fig. S4 1H NMR spectrum of compound 4. 6
5. Fig. S5 1H NMR spectrum of compound 5. 7
6. Fig. S6 13C NMR spectrum of compound 1. 8
Electronic Supplementary Material (ESI) for New Journal of Chemistry.This journal is © The Royal Society of Chemistry and the Centre National de la Recherche Scientifique 2019
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7. Fig. S7 13C NMR spectrum of compound 2. 9
8. Fig. S8 13C NMR spectrum of compound 3. 10
9. Fig. S9 13C NMR spectrum of compound 4. 11
10. Fig. S10 13C NMR spectrum of compound 5. 12
11. Fig. S11 1H NMR spectrum of complex (1)2@CB[8]·6.5H2O. 13
12. Fig. S12 1H NMR spectrum of complex 2(5)@γ-CD·6H2O. 14
13. Fig. S13 1H NMR spectrum of complex (5)2@CB[8]·5H2O. 15
14. Fig. S14 1H NMR spectra of compound 4 and its mixture with β-CD. 16
15. Fig. S15 1H NMR spectra of compound 4 and its mixture with γ-CD. 16
16. Fig. S16 1H NMR spectra of compound 5 and its mixture with β-CD. 17
17. Fig. S17 1H NMR spectra of compound 5 and its mixture with γ-CD. 17
18. Fig. S18 1H NMR spectra of compound 2 and its mixture with γ-CD. 18
19. Fig. S19 1H NMR spectra of compound 5 and its mixtures with CB[7]. 18
20. Fig. S20 1H NMR spectrum of a mixture of compound 5 and CB[7]. 19
21. Fig. S21 1H NMR spectra of compound 2 and its mixture with CB[7]. 20
22. Fig. S22 NOESY spectrum of a mixture of compound 3 and β-CD. 21
23. Fig. S23 Absorption spectrum of compound 1. 22
24. Fig. S24 Fluorescence spectrum of compound 1. 22
25. Fig. S25 Absorption and fluorescence spectra of compound 2 and complex 2@β-CD.
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26. Fig. S26 Absorption and fluorescence spectra of compound 4 and complex 4@β-CD.
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27. Fig. S27 Absorption and fluorescence spectra of compound 5 and complex 5@β-CD.
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28. Fig. S28 Absorption and fluorescence spectra of compound 2 and complex 2@γ-CD.
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29. Fig. S29 Absorption and fluorescence spectra of compound 4 and complex 4@γ-CD.
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30. Fig. S30 Absorption and fluorescence spectra of compound 5 and complex 5@γ-CD.
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31. Fig. S31 Absorption and fluorescence spectra of compound 2 and complexes 2@CB[7] and 2@(CB[7])2.
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32. Fig. S32 Absorption and fluorescence spectra of compound 4 and complexes 4@CB[7] and 4@(CB[7])2.
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33. Fig. S33 Absorption and fluorescence spectra of compound 5 and complexes 5@CB[7] and 5@(CB[7])2.
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34. Fig. S34 Absorption and fluorescence spectra of compound 5 and complexes 5@CB[8] and (5)2@CB[8].
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Fig. S1 1H NMR spectrum of compound 1 (500.13 MHz, DMSO-d6, 25 °C).
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Fig. S2 1H NMR spectrum of compound 2 (500.13 MHz, DMSO-d6, 26 °C).
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Fig. S3 1H NMR spectrum of compound 3 (500.13 MHz, DMSO-d6, 26 °C).
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Fig. S4 1H NMR spectrum of compound 4 (500.13 MHz, DMSO-d6, 26 °C).
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Fig. S5 1H NMR spectrum of compound 5 (500.13 MHz, DMSO-d6, 28 °C).
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Fig. S6 13C NMR spectrum of compound 1 (125.76 MHz, DMSO-d6, 25 °C).
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Fig. S7 13C NMR spectrum of compound 2 (125.76 MHz, DMSO-d6, 26 °C).
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Fig. S8 13C NMR spectrum of compound 3 (125.76 MHz, DMSO-d6, 25 °C).
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Fig. S9 13C NMR spectrum of compound 4 (125.76 MHz, DMSO-d6, 25 °C).
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Fig. S10 13C NMR spectrum of compound 5 (125.76 MHz, DMSO-d6, 26 °C).
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Fig. S11 1H NMR spectrum of complex (1)2@CB[8]·6.5H2O, which was obtained by crystallization (Ccomplex = 3×10–4 M), D2O, 25 °C.
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Fig. S12 1H NMR spectrum of complex 2(5)@γ-CD·6H2O, which was obtained by crystallization (Ccomplex = 3×10–4 M), D2O, 25 °C.
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Fig. S13 1H NMR spectrum of complex (5)2@CB[8]·5H2O, which was obtained by crystallization (sat., Ccomplex < 1×10–4 M), D2O, 25 °C.
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Fig. S14 1H NMR spectra ((a, b) aromatic and (c, d) aliphatic proton
regions) of (a, c) compound 4 and (b, d) a 1:6.0 mixture of compound 4
and β-CD (C4 = 5.0×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
Fig. S15 1H NMR spectra ((a, b) aromatic and (c, d) aliphatic proton
regions) of (a, c) compound 4 and (b, d) a 1:7.4 mixture of compound
4 and γ-CD (C4 = 4.3×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
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Fig. S16 1H NMR spectra ((a, b) aromatic and (c, d) aliphatic proton
regions) of (a, c) compound 5 and (b, d) a 1:5.8 mixture of compound 5
and β-CD (C5 = 5.2×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
Fig. S17 1H NMR spectra ((a, b) aromatic and (c, d) aliphatic proton
regions) of (a, c) compound 5 and (b, d) a 1:6.1 mixture of compound
5 and γ-CD (C5 = 5.2×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
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Fig. S18 1H NMR spectra ((a, b) aromatic and (c, d) aliphatic proton
regions) of (a, c) compound 2 and (b, d) a 1:6.5 mixture of compound 2
and γ-CD (C2 = 4.7×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
Fig. S19 1H NMR spectra (aromatic proton region) of (a) compound 5
and (b) 1:0.7 and (c) 1:1.9 mixtures of compound 5 and CB[7] (C5 =
6.4×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
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Fig. S20 1H NMR spectrum of a 1:1.9 mixture of compound 5 and CB[7] (C5 = 6.4×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25 °C.
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Fig. S21 1H NMR spectra of (a) compound 2 and (b) a 1:1.9 mixture of compound 2 and CB[7] (C2 = 5.7×10–4 M), D2O–MeCN-d3 (10:1, v/v), 25
°C.
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ppm (f2)1.02.03.04.05.06.07.08.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
ppm (f1)
Fig. S22 NOESY spectrum of an equimolar mixture of compound 3 and β-CD (C3 = CCD = 6×10–3 M), D2O, 25 °C.
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Fig. S23 Absorption spectrum of compound 1 (C = 2×10–5 M), water,
ambient temperature, 1-cm quartz cell.
Fig. S24 Fluorescence spectrum of compound 1 (C = 1×10–6 M), water,
ambient temperature. The fluorescence was excited by light at 356 nm.
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(a)
(b)
Fig. S25 (a) Absorption and (b) fluorescence spectra of compound 2 (C2 = 2×10–5 M for absorption and C2 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 2@β-CD, water, ambient temperature. The fluorescence was excited by light at 313 nm.
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(a)
(b)
Fig. S26 (a) Absorption and (b) fluorescence spectra of compound 4 (C4 = 2×10–5 M for absorption and C4 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 4@β-CD, water, ambient temperature. The fluorescence was excited by light at 319 nm.
(b
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(a)
(b)
Fig. S27 (a) Absorption and (b) fluorescence spectra of compound 5 (C5 = 2×10–5 M for absorption and C5 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 5@β-CD, water, ambient temperature. The fluorescence was excited by light at 311 nm.
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(a)
(b)
Fig. S28 (a) Absorption and (b) fluorescence spectra of compound 2 (C2 = 2×10–5 M for absorption and C2 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 2@γ-CD, water, ambient temperature. The fluorescence was excited by light at 332 nm.
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(a)
(b)
Fig. S29 (a) Absorption and (b) fluorescence spectra of compound 4 (C4 = 2×10–5 M for absorption and C4 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 4@γ-CD, water, ambient temperature. The fluorescence was excited by light at 319 nm.
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(a)
(b)
Fig. S30 (a) Absorption and (b) fluorescence spectra of compound 5 (C5 = 2×10–5 M for absorption and C5 = 1×10–5 M for fluorescence) and
respective evaluated spectra of complex 5@γ-CD, water, ambient temperature. The fluorescence was excited by light at 321 nm.
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(a)
(b)
Fig. S31 (a) Absorption and (b) fluorescence spectra of compound 2 (C2 = 2×10–5 M for absorption and C2 = 1×10–6 M for fluorescence) and
respective evaluated spectra of complexes 2@CB[7] and 2@(CB[7])2, water, ambient temperature. The fluorescence was excited by light at 356 nm.
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(a)
(b)
Fig. S32 (a) Absorption and (b) fluorescence spectra of compound 4 (C4 = 2×10–5 M for absorption and C4 = 1×10–6 M for fluorescence) and
respective evaluated spectra of complexes 4@CB[7] and 4@(CB[7])2, water, ambient temperature. The fluorescence was excited by light at 356 nm.
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(a)
(b)
Fig. S33 (a) Absorption and (b) fluorescence spectra of compound 5 (C5 = 2×10–5 M for absorption and C5 = 1×10–6 M for fluorescence) and
respective evaluated spectra of complexes 5@CB[7] and 5@(CB[7])2, water, ambient temperature. The fluorescence was excited by light at 359 nm.
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(a)
(b)
Fig. S34 (a) Absorption and (b) fluorescence spectra of compound 5 (C5 = 2×10–5 M for absorption and C5 = 1×10–6 M for fluorescence) and
respective evaluated spectra of complexes 5@CB[8] and (5)2@CB[8] (per molecule of naphthylpyridine derivative), water, ambient temperature.
The fluorescence was excited by light at 333 nm.
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