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Molecular Simulation Volume 14, 1995 - Issue 6
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Original Articles

Generalized Stone-Wales Transformations

Darko Babic The Rugjer Bošković Institute, P.O.B. 1016, HR-41001, Zagreb, The Republic of Croatia
,
Stefano Bassoli Dipartimento di Fisica and INFM-CISM, Viale delle Scienze, 43100, Parma, (Italy)
,
Mario Casartelli Dipartimento di Fisica and INFM-CISM, Viale delle Scienze, 43100, Parma, (Italy)
,
Franco Cataldo PROGEGA s.n.c. Via Mario Mencatelli, 14,00128, Rome, (Italy)
,
Ante Grao Vac The Rugjer Bošković Institute, P.O.B. 1016, HR-41001, Zagreb, The Republic of Croatia
,
Ottorino Ori Thinking Machines Corporation, Cambridge, MA, 02142-1214, (USA)
&
Bryant York College of Computer Science, Northeastern University, Boston, MA, 02115, (USA)
 show all
Pages 395-401 | Received 01 Oct 1994, Accepted 01 Nov 1994, Published online: 17 Feb 2007

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T. Chaitanya Sagar, Viswanath Chinthapenta & M. F. Horstemeyer. (2021) Effect of defect guided out-of-plane deformations on the mechanical properties of graphene. Fullerenes, Nanotubes and Carbon Nanostructures 29:2, pages 83-99.
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Ottorino Ori & Franco Cataldo. (2020) Moving pentagons on nanocones. Fullerenes, Nanotubes and Carbon Nanostructures 28:9, pages 732-736.
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Mikhail V. Kirov. (2019) Structural features of cubic “polyhedra” up to 24 vertices with four-, five- and six-sided faces. Fullerenes, Nanotubes and Carbon Nanostructures 27:4, pages 333-343.
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Arturo Tozzi, James F. Peters & Ottorino Ori. (2017) Fullerenic-topological tools for honeycomb nanomechanics. Toward a fullerenic approach to brain functions. Fullerenes, Nanotubes and Carbon Nanostructures 25:4, pages 282-288.
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Ottorino Ori, Franco Cataldo & Ante Graovac. (2009) Topological Ranking of C28 Fullerenes Reactivity. Fullerenes, Nanotubes and Carbon Nanostructures 17:3, pages 308-323.
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T.Yu. Astakhova & G.A. Vinogradov. (1998) New Isomerization Mechanisms for Fullerenes. Fullerene Science and Technology 6:6, pages 1037-1055.
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Eiji [Obar]sawa, Zdenek Slanina, Kazuhiko Honda & Xiang Zhao. (1998) Stone-Wales Rearrangement as the Double Olefin-Carbene 1,2-CC Bond Shift. Denied Role of Triplet Biradicals. Fullerene Science and Technology 6:2, pages 259-270.
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AlexandraT. Balaban, Ovidiu Ivanciuc & Darko Babic. (1997) Correlation Between Energies of Proper Fullerenes and their Topological Invariants. Part I. Fullerenes with Abutting Pentagons. Fullerene Science and Technology 5:7, pages 1479-1506.
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Articles from other publishers (18)

Artur Bille, Victor Buchstaber & Evgeny Spodarev. (2020) Spectral clustering of combinatorial fullerene isomers based on their facet graph structure. Journal of Mathematical Chemistry 59:1, pages 264-288.
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Denis Sh. Sabirov & Ottorino Ori. (2020) Skeletal Rearrangements of the C240 Fullerene: Efficient Topological Descriptors for Monitoring Stone–Wales Transformations. Mathematics 8:6, pages 968.
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Arturo Tozzi, James F. Peters & Ottorino Ori. (2017) Cracking the barcode of fullerene-like cortical microcolumns. Neuroscience Letters 644, pages 100-106.
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Ziwei Xu, Zilin Liang & Feng Ding. (2016) Isomerization of sp 2 ‐hybridized carbon nanomaterials: structural transformation and topological defects of fullerene, carbon nanotube, and graphene . WIREs Computational Molecular Science 7:2.
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Ottorino Ori, Franco Cataldo & Mihai V. Putz. 2017. Sustainable Nanosystems Development, Properties, and Applications. Sustainable Nanosystems Development, Properties, and Applications 600 614 .
Yu. L. Voytekhovsky & D. G. Stepenshchikov. (2017) Fullerene transformations as analogues of radiolarian skeleton microevolution. Paleontological Journal 50:13, pages 1544-1548.
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Mihai Putz. 2016. Quantum Nanochemistry, Volume Four. Quantum Nanochemistry, Volume Four 1 77 .
Peter Schwerdtfeger, Lukas N Wirz & James Avery. (2015) The topology of fullerenes. Wiley Interdisciplinary Reviews: Computational Molecular Science 5:1, pages 96-145.
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Ottorino Ori, Franco Cataldo & Mihai V. Putz. (2011) Topological Anisotropy of Stone-Wales Waves in Graphenic Fragments. International Journal of Molecular Sciences 12:11, pages 7934-7949.
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Zdeněk Slanina, Filip Uhlík, Shyi‐Long Lee, Takeshi Akasaka & Shigeru Nagase. 2010. Carbon Nanotubes and Related Structures. Carbon Nanotubes and Related Structures 491 523 .
Gunnar Brinkmann, Dieter Franceus, Patrick W. Fowler & Jack E. Graver. (2006) Growing fullerenes from seed: Growth transformations of fullerene polyhedra. Chemical Physics Letters 428:4-6, pages 386-393.
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Zdeněk Slanina & Shigeru Nagase. 2005. Theory and Applications of Computational Chemistry. Theory and Applications of Computational Chemistry 891 917 .
Zdenĕk Slanina, Filip Uhlík, Ludwik Adamowicz & Shyi‐Long Lee. (2004) Computations of the catalytic effects in the stone–wales fullerene isomerizations: N and CN agents. International Journal of Quantum Chemistry 99:5, pages 634-639.
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G. Brinkmann, P. W. Fowler & C. Justus. (2003) A Catalogue of Isomerization Transformations of Fullerene Polyhedra. Journal of Chemical Information and Computer Sciences 43:3, pages 917-927.
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Douglas J. Klein & Hongyao Zhu. 2002. From Chemical Topology to Three-Dimensional Geometry. From Chemical Topology to Three-Dimensional Geometry 297 341 .
D Babic & N Trinajstic. (2001) Planar rearrangements of fullerenes. Journal of Molecular Graphics and Modelling 19:2, pages 210-215.
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Zdeněk Slanina, Xiang Zhao, Filip Uhlı́k, Masaki Ozawa & Eiji Ōsawa. (2000) Computational modeling of the elemental catalysis in the Stone–Wales fullerene rearrangements. Journal of Organometallic Chemistry 599:1, pages 57-61.
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Bor Plestenjak, Tomaž Pisanski & Ante Graovac. (1996) Generating Fullerenes at Random. Journal of Chemical Information and Computer Sciences 36:4, pages 825-828.
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