Highly strained hydrocarbons with unusual spatial structure

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Highly strained hydrocarbons with unusual spatial structure
Book chapters and reviews:
1. H. Dodziuk, “Endohedral fullerene complexes and in-out isomerism in
perhydrogenated fullerenes. Why the carbon cages cannot be used as the hydrogen
containers?", w “Mathematics and Topology of Fullerenes”, A. Graovac, O. Ori, F.
Cataldo, Eds., a Springer book series on Carbon Materials Chemistry and Physics,
2011, 117 – 151.
2. H. Dodziuk, “Introductory remarks”, w “Strained hydrocarbons. Beyond van’t Hoff
and LeBel hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2009.
3. H. Dodziuk, “Strained hydrocarbons - why are such systems worth studying?”, w
“Strained hydrocarbons. Beyond van’t Hoff and LeBel hypothesis”, Ed. H. Dodziuk,
Wiley-VCH, Weinheim, 2009.
4. H. Dodziuk, “Gallery of unusual hydrocarbon structures”, w “Strained hydrocarbons.
Beyond van’t Hoff and LeBel hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim,
2009.
5. H. Dodziuk, „Planar carbon”, w “Strained hydrocarbons. Beyond van’t Hoff and
LeBel hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2009.
6. H. Dodziuk, “(CH)2n cage structures and planar cyclohexane rings”, w “Strained
hydrocarbons. Beyond van’t Hoff and LeBel hypothesis”, Ed. H. Dodziuk, WileyVCH, Weinheim, 2009.
7. H. Dodziuk, “Introduction to fullerenes”, w “Strained hydrocarbons. Beyond van’t
Hoff and LeBel hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2009.
8. H. Dodziuk, “Inclusion into molecular flasks as a mean for stabilization of short lived
highly strained species”, w “Strained hydrocarbons. Beyond van’t Hoff and LeBel
hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2009.
9. H. Dodziuk, “Concluding remarks”, w “Strained hydrocarbons. Beyond van’t Hoff
and LeBel hypothesis”, Ed. H. Dodziuk, Wiley-VCH, Weinheim, 2009.
10. H. Dodziuk, "Modeling the Structure of Fullerenes and Their Endohedral Complexes
Involving Small Molecules with Nontrivial Topological Properties", J. Nanosci.
Nanotechn., 2007 , 7 (3), 1-10. Abstract
11. H. Dodziuk, “Among synthetic, supramolecular and theoretical chemistry:
stabilization of short-lived species in ‘molecular’ or ‘supramolecular flasks’”, Int. J.
Molec. Sci., 2002, 3, 814-821.
12. H. Dodziuk, "Modeling complexes of H2 Molecules in Fullerenes", Chem. Phys. Lett.,
2005, 41.
13. H. Dodziuk, K. S. Nowiński, "Topological Isomerism: Should Rotaxanes, Endohedral
Fullerene Complexes and In-Out Isomers of Hydrogenated Fullerenes Be Considered
as Such?", Tetrahedron, 1998, 54, 2917. Abstract
14. H. Dodziuk, "Unusual saturated hydrocarbons: interaction between theoretical and
synthetic chemistry", Top. Stereochem., 1994, 21, 351.
Articles:
1. H. Dodziuk, O. Vetokhina, H. Hopf, R. Luboradzki, P. Gaweł, J. Waluk, “Electronic
states of cyclophanes with small bridges.”, J. Chem. Phys, 2012, 136, 074201.
2. H. Dodziuk, T. B. Demissie, K. Ruud, J. Jaźwiński, S. Szymański, H. Hopf,
„Structure and NMR Spectra of Cyclophanes with Unsaturated Bridges
(Cyclophenes)”, Magn. Res. Chem., 2012, 50, 449-457, doi: 10.1002/mrc.3821.
3. H. Dodziuk, S. Szymański, J. Jaźwiński, M. Ostrowski, T. Demissie, K. Ruud, P.
Kuś, H. Hopf, S.-T. Lin, “The structure and NMR spectra of some para[2.2]cyclophanes. The dilemma of [2.2]paracyclophane symmetry”, J. Phys. Chem. A,
2011, 115, 10638-10649, DOI: 10.1021/jp205693a.
4. T. Korona, H. Dodziuk, „Small molecules in C60 and C70. Which complexes could be
stabilized?”, J. Chem. Theor. Comput., 2011, 7, 1476-1483.
5. H. Dodziuk, S. Szymanski, J. Jazwinski, M. Marchwiany, H. Hopf, “Structure and
Dynamics of [3.3]paracyclophane as Studied by NMR and DFT Calculations”, J.
Phys. Chem. A, 2010, 114, 10467–10473.
6. H. Dodziuk, M. Ostrowski, M. E. Marchwiany, “NMR parameters of two
tricyclododecadienes – strained hydrocarbons with close distance between
perpendicularly or parallel arranged double bonds”, Magn. Res. Chem., 2010, 48,
173-178.
7. H. Dodziuk, M. Ostrowski, K. Ruud, J. Jaźwiński, H. Hopf, W. Koźmiński, "Spatial
Structure and NMR Spectra of Strained [2.2.2]Cyclophanes", Magn. Res. Chem.,
2009, 47, 407-414.
8. T. Korona, M. Hesselmann, H. Dodziuk, "Symmetry-adapted perturbation theory
applied to endohedral fullerene complexes: a stability study of H2@C60 and
2H2@C60", J. Chem. Theory and Comput., 2009,5, 1585-1596.
9. T. C. Dinadayalane, L. Gorb, T. Simeon, H. Dodziuk, “Cumulative - Interaction
Triggers Unusually High Stabilization of Linear Hydrocarbon Inside the SingleWalled Carbon Nanotube”, Int. J. Quantum. Chem, 2007, 107, 2204-2210.
10. H. Dodziuk, M. Ostrowski, "The planarization of the cyclohexane ring by building it
into a cyclophane cage: hexahydrosuperphane", Eur. J. Org. Chem., 2006 , 5231 5237. Abstract
11. H. Dodziuk, "Reply to the 'Comment on `Modelling complexes of H2 molecules in
fullerenes" by H. Dodziuk [Chem. Phys. Lett. 410 (2005) 39]` by L. Turker and S.
Erkoc' ", Chem. Phys. Lett., 2006, 426, 224.
12. T. C. Dinadayalane, L. Gorb, H. Dodziuk and J. Leszczyński, "Modelling of the
Stabilization of the System Consisting of a Single Walled (5.5) Carbon Nanotube
C60H20 with Cumulenic or Acetylenic Chain", AIP Conf. Proc., 2005, 786, 436-439.
Abstract
13. H. Dodziuk, "Modeling complexes of H2 Molecules in Fullerenes", Chem. Phys. Lett.,
2005, 410, 39-41. Abstract
14. 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.
15. H. Dodziuk, G. Dolgonos, J. Leszczyński, "A quantum chemical study of
tricyclo[3.2.0.01,3]heptane: a new hypothetical molecule with unusual spatial
structure. Similarities and differences with syn- and anti-tricyclo[3.2.0.02,4]heptanes",
Tetrahedron, 2003, 59, 2561. Abstract
16. H. Dodziuk, G. Dolgonos, J. Leszczyński, "Tricyclo[2.2.0.01,3]hexane: a new
hypothetical molecule which should have only one inverted carbon atom",
Tetrahedron, 2003, 59, 10013. Abstract
17. M. Jaszuński, G. Dolgonos, H. Dodziuk, "An ab initio Study of NMR Chemical
Shifts and Spin-spin Coupling Constants of Bicyclobutane", Theor. Chem. Acc.,
2002, 108, 240. Abstract
18. H. Dodziuk, G. Dolgonos “Molecular modelling study of hydrogen molecules in
carbon nanotubes”, Chem. Phys. Lett., 2002, 356, 79.
19. H. Dodziuk, G. Dolgonos, O. Lukin “Molecular mechanics study of endohedral
fullerene complexes with small molecules”, Carbon, 2001, 39, 1907.
20. M. Pecul, H. Dodziuk, M. Jaszuński, O. Lukin and J. Leszczyński, "Ab initio
calculations of the NMR spectra of [1.1.1]propellane and bicyclo[1.1.1]pentane",
Chem. Phys. Phys. Chem., 2001, 3, 1986. Abstract
21. Dodziuk, J. Leszczyński, K. Jackowski, "Quantum Chemical Study of Spiropentane,
Spiropentene and Spiropentadiene", Tetrahedron, 2001, 57, 5509. Abstract
22. H. Dodziuk, G. Dolgonos, O. Lukin, “Ease of formation of nested fullerenes”, Chem.
Phys. Lett., 2000, 329, 351.
23. H. Dodziuk, O. Lukin, K.S. Nowiński, "Topological 'In-out' Isomerism in
perhydrogenated Fullerenes revisited. C60H58R1R2 with two R groups 'In' (R1, R2 = H,
Me)", Pol. J. Chem., 1999, 73, 299. Abstract or PDF
24. H. Dodziuk, K. Jackowski, J. Leszczyński, “GIAO-CHF calculations of NMR
chemical shifts for saturated hydrocarbons with unusual spatial structure”, Proc. Of
the Intern. Conf. Progress in Computing of Physicochemical Properties, 18-20
November 1999, Warsaw, Poland.
25. H. Dodziuk, J. Leszczyński, K. Jackowski, "Small-ring Geminanes - New
Hypothetical Molecules with Inverted Carbon Atoms", J. Org. Chem., 1999, 64,
6177. Abstract
26. H. Dodziuk, J. Leszczyński, "Stretching the Limits: According to High-Level Ab
Initio Calculations C-O Bonds Are Longer Than the Central C-C One in Hypothetical
2-Oxabicyclobutane", Pol. J. Chem., 1998, 72, 2030. PDF
27. H. Dodziuk, J. Leszczyński, K. Nowiński, "The Quest for a Planar and Pyramidal
Carbon Atom. Part 4. An Unsuccessful Search for Pyramidal Carbon Atom in
Hypothetical Unsaturated Conjugated Paddlane", J. Mol. Struct. (THEOCHEM),
1997, 391, 201. Abstract
28. H. Dodziuk, K. Nowiński, "Horror vacui or topological in-out isomerism in
perhydrogenated fullerenes. Part 1. C60H60 and monoalkylated perhydrogenated
fullerenes", Chem. Phys. Lett., 1996, 249, 406. Abstract
29. H. Dodziuk, J. Leszczyński, K. Nowiński, "The quest for planar and pyramidal
carbon atom. Part 3. Can a tetrahedrally coordinated carbon form a nearly linear C-CC bond angle?", J. Org. Chem., 1995, 60, 6860. Abstract
30. H. Dodziuk, K. Nowiński, "In quest for planar and pyramidal carbon atom. Part II.
AM1 study of small bridged spiropentanes", J. Mol. Struct. (THEOCHEM), 1994,
311, 97. Abstract
31. H. Dodziuk, "Bowlane (tetracyclo[3.3.3.13,10.17,10tridecane): a new hypothetical
molecule possessing a pyramidal tetracoordinated carbon atom in the ground state", J.
Mol. Struct., 1990 , 239, 167. Abstract
32. H. Dodziuk, "A molecular mechanics study of C8H8 saturated cage compounds", Bull.
Acad. Scie. Polon., ser. chim., 1990, 38, 11. Abstract
33. H. Dodziuk, "A molecular mechanics study of new molecules containing inverted
carbons : small-ring geminanes and [n.1.1]propellanes with n > 4", Tetrahedron,
1988, 44, 2951. Abstract
34. H. Dodziuk, "The study of planarized and planar cyclohexane rings on the basis of
molecular mechanics", Bull. Chem. Soc. Japan, 1987, 60, 3775. Abstract
35. H. Dodziuk, K. Nowiński, "Is hexaprismane the most stable isomer of C12H12 family
of saturated cage compounds?", Bull. Acad. Sci. Polon., Ser. Chim., 1987, 35, 195.
Abstract
36. H. Dodziuk, "Conformational analysis of spiranes by the force-field method. Part I.
Chirality and diastereoisomerism of spirocompounds. Spiro[5.5]undecane and its
derivatives", J. Chem. Soc., Perkin Trans. II, 1986, 249. Abstract
37. H. Dodziuk, "Classical conformational analysis of strained organic molecules. I.
[l.m.n]propellanes with l, m, and n equal to 2, 3, and 4", J. Comput. Chem., 1984, 5,
571.
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