Cyclodextrins

advertisement
Cyclodextrins
Book chapters and reviews:
1. H. Dodziuk, "Molecules with holes. Cyclodextrins", in "Cyclodextrins and Their
Complexes. Chemistry, Analytical Methods, Applications", Ed. H. Dodziuk, WileyVCH, Weinheim, 2006.
2. H. Dodziuk, " Modeling of CyDs and their complexes", in "Cyclodextrins and Their
Complexes. Chemistry, Analytical Methods, Applications", Ed. H. Dodziuk, WileyVCH, Weinheim, 2006.
3. H. Dodziuk, "Other Physicochemical Methods. Introductory Remarks", in
"Cyclodextrins and Their Complexes. Chemistry, Analytical Methods, Applications",
Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2006.
4. H. Dodziuk, "Applications Other than in Pharmaceutical Industry. Introductory
Remarks", "Cyclodextrins and Their Complexes. Chemistry, Analytical Methods,
Applications", Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2006.
5. H. Dodziuk, “Modeling of molecular and chiral recognition by cyclodextrins”, Lecture
Series on Computer and Computational Sciences, ICCMSE 2006, T. Simos and G.
Maroulis, Eds., vol. 7A, 2006, p. 780.
6. H. Dodziuk, W. Koźmiński, A. Ejchart, „NMR studies of chiral recognition by
cyclodextrins”, Chirality, 2004 16 (2) 90-105.
7. H. Dodziuk, “Molecular and chiral recogition by cyclodextrins. A minireview”, Biol.
J. Armen., 2001, 53, (3 - 4), 282 B 287.
8. H. Dodziuk, “Rigidity versus flexibility. A review of experimental and theoretical
studies pertaining to the cyclodextrins nonrigidity”, J. Mol. Struct., 2002, 614, 33-45.
Articles:
1. H. Dodziuk, A. Bielejewska, W. Schilf, H. Ueda, “Different Complexation Behaviour
of [2.2]Cyclophane with - and -Cyclodextrins”, Centr. Eur. J. Chem., 2011, 9,
1056-1061 DOI: 10.2478/s11532-011-0095-6.
2. H. Dodziuk, M. Pietrzak, “CPMAS study of rings inversion of cis-decalin in the solid
state when complexed with -cyclodextrin”, Austr. J. Chem., 2010, 63, 709-711.
3. P. Bernatowicz, A. Ejchart, K. Ruszczyńska-Bartnik, H. Dodziuk, E. KaczorowskaMolchanow, H. Ueda, „Carbon-13 NMR relaxation study of the internal dynamics in
cyclodextrins in isotropic solution”, J. Phys. Chem. B, 2010, 114, 59-65.
4. P. Bernatowicz, M. Nowakowski, H. Dodziuk, A. Ejchart, Determination of
association constants at moderately fast chemical exchange. Complexation of
camphor enantiomers by -cyclodextrin, J. Magn. Res., 2006, 181, 304-309.
5. H. Dodziuk, O. M. Demchuk, W. Schilf, G. Dolgonos, “Synthesis and NMR Study of
First Generation Dendrimer Having Four Branches Involving Four Glycine and One
Carbomoyl-(3,7-dimethoxy-2-naphthalene) Groups and Unsuccessful Attempts to
Complex It with -, - or -Cyclodextrins”, J. Mol. Struct., 2004, 693, 1145 – 151.
6. H. Dodziuk, O. M. Demchuk, A. Bielejewska, W. Koźmiński, G. Dolgonos,
“Chromatographic, NMR and Molecular Modeling Study of Multiple Complexation
of
-, - and -Cyclodextrins with First Generation Dendrimer Having Three
Branches Involving Four Glycine and One Adamantyl Groups”, Supramol. Chem.,
2004, 16, 287-292.
7. H. Dodziuk, A. Ejchart, W. Anczewski, H. Ueda, E. Krinichnaya, G. Dolgonos, W.
Kutner, “Determination of the number of different types of SWNTs by complexation
with -cyclodextrin”, Chem. Commun., 2003, 986-987.
8. W. Anczewski, H. Dodziuk, A. Ejchart, “Manifestation of Chiral Recognition of
Camphor Enantiomers by -Cyclodextrin in Longitudal and Transverse Relaxation
Rates of the Corresponding Complexes”, Chirality, 2003, 15, 654.
9. H. Dodziuk, W. Koźmiński, G. Dolgonos, “The differences between the H and S
values of the 1:2 complex of camphor enantiomers with -cyclodextrin determined
by NMR titration and the results obtained by other techniques”, Pol. J. Chem., 2003,
77, 251.
10. H. Dodziuk, K. S. Nowiński, W. Koźmiński, G. Dolgonos, „On the impossibility of
determination of stepwise binding constants for the 1:2 complex of (+)-camphor with
-cyclodextrin”, Org. Biomol. Chem., 2003, 1, 581-584.
11. H. Dodziuk, O. Demchuk, W. Koźmiński, G. Dolgonos, „1:3 Complex between
Cyclodextrin and Dendrimer with Three Branches Involving Four Glycine and One
Adamantyl Group”, Pol. J. Chem., 2003, 77, 333-340.
12. H. Dodziuk, J. Jurczak, W. Koźmiński, O. Lukin, J. Sitkowski, L. Stefaniak, “
Dynamic NMR Study of Self-inclusion of a Pendant Group in Amphiphilic 6Thiophenyl-6-deoxy-cyclodextrins”, J. Mol. Struct., 2000, 519, 33-36.
13. H. Dodziuk, W. Koźmiński, O. Lukin, D. Sybilska, “NMR Manifestations and
Molecular Modeling of Chiral Recognition of α-Pinenes by α-Cyclodextrin”, J. Mol.
Struct., 2000, 523, 205.
14. H. Dodziuk, O. Lukin, K. S. Nowiński, “Modelling of Molecular and Chiral
Recognition by Cyclodextrins using Molecular Mechanics. Is It Reliable? The
Selective Complexation of Decalins by β-Cyclodextrin - a Case Study”, J. Mol.
Struct. (THEOCHEM), 2000, 503, 221-230.
15. H. Dodziuk, O. Lukin, “Modeling of Molecular and Chiral Recognition by
Cyclodextrins. Is It Reliable? Part 2. Molecular Dynamics Calculations in Vacuum
Pertaining to the Selective Complexation of Decalins by β-Cyclodextrin”, Pol. J.
Chem., 2000, 74, 997-1001.
16. H. Dodziuk, O. Lukin, “The dependence of the average energy difference for the
diastereomeric complexes of α-pinene enantiomers with α-cyclodextrin on the length
of dynamic simulations”, Chem. Phys. Lett., 2000, 327, 18-22.
17. H. Dodziuk, A. Ejchart, O. Lukin, M. O. Vysotsky, “1H and 13C NMR and Molecular
Dynamics Study of Chiral Recognition of Camphor Enantiomers by α-Cyclodextrin”,
J. Org. Chem., 1999, 64, 1503.
18. H. Dodziuk, J. Sitkowski, L. Stefaniak, D. Sybilska, J. Jurczak, K. Chmurski,
"Structure of cyclodextrins and their complexes. Part 6. The NMR observation of
separate signals of host and guest pertaining to 1 : 1 and 1 : 2 complexes of 1,8dimethylnaphthalene with -cyclodextrin.", Pol. J. Chem., 1997, 71, 757.
19. H. Dodziuk, J. Sitkowski, L. Stefaniak, D. Sybilska, "Structure of cyclodextrins and
their complexes. Part 7. Unusual NMR manifestations of chiral recognition of (1R,
5R)- and (1S, 5S)-α-pinenes by α-cyclodextrin in different solvents", Pol. J. Chem.,
1996, 70, 1361.
20. H. Dodziuk, J. Sitkowski, L. Stefaniak, D. Sybilska, J. Jurczak, "Structure of
cyclodextrins and their complexes. Part 5. The NMR observation of separate signals
of host and guest pertaining to 1 : 1 and 1 : 2 complexes of acenaphthene with
β-cyclodextrin.", Supramol. Chem., 1996, 7, 33.
21. H. Dodziuk, D. Sybilska, S. Miki, Z. Yoshida, J. Sitkowski, M. Asztemborska, A.
Bielejewska, J. Kowalczyk, K. Duszczyk, L. Stefaniak, "Structure of cyclodextrins
and their complexes. Part 4. Chromatographic and NMR study of
1,2,3-tri-t-butylnaphthalene and its complex with -cyclodextrin", Tetrahedron, 1994,
50, 3619.
22. H. Dodziuk, K. Nowiński, "Structure of cyclodextrins and their complexes. Part 2. Do
cyclodextrins have a rigid truncated-cone structure ?" J. Mol. Struct. (THEOCHEM),
1994, 110, 61.
23. H. Dodziuk, J. Sitkowski, L. Stefaniak, J. Jurczak, D. Sybilska, "Structure of
cyclodextrins and their complexes. Part 3. 1H NMR spectra of diastereomeric
complexes of cis-decalin with -cyclodextrin", Supramol. Chem., 1993, 3, 79.
24. H. Dodziuk, J. Sitkowski, L. Stefaniak, J. Jurczak, D. Sybilska, "13C NMR
differentiation of diastereomeric complexes of cis-decalin with -cyclodextrin
(Structure of cyclodextrins and their complexes. Part I)", J. Chem. Soc., Chem.
Commun., 1992, 207-208.
Download