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Acene

April 12, 2024

Not to be confused with the class of hydronitrogens known as "azenes".

In organic chemistry, the acenes or polyacenes are a class of organic compounds and polycyclic aromatic hydrocarbons made up of benzene (C6H6) rings which have been linearly fused.[1][2] They follow the general molecular formula C4n+2H2n+4.

The general structural formula for acenes

The larger representatives have potential interest in optoelectronic applications and are actively researched in chemistry and electrical engineering. Pentacene has been incorporated into organic field-effect transistors, reaching charge carrier mobilities as high as 5 cm2/Vs.

The first 5 unsubstituted members are listed in the following table:

Name Number of rings Molecular formula Structural formula
Anthracene 3 C14H10
Tetracene 4 C18H12
Pentacene 5 C22H14
Hexacene 6 C26H16
Heptacene 7 C30H18

Hexacene is not stable in air, and dimerises upon isolation. Heptacene (and larger acenes) is very reactive and has only been isolated in a matrix. However, bis(trialkylsilylethynylated) versions of heptacene have been isolated as crystalline solids.[3]

Larger acenes edit

Due to their increased conjugation length the larger acenes are also studied.[4] Theoretically, a number of reports are available on longer chains using density functional methods.[5][6] They are also building blocks for nanotubes and graphene. Unsubstituted octacene (n=8) and nonacene (n=9)[7] have been detected in matrix isolation. The first reports of stable nonacene derivatives claimed that due to the electronic effects of the thioaryl substituents the compound is not a diradical but a closed-shell compound with the lowest HOMO-LUMO gap reported for any acene,[8] an observation in violation of Kasha's rule. Subsequent work by others on different derivatives included crystal structures, with no such violations.[9] The on-surface synthesis and characterization of unsubstituted, parent nonacene (n=9)[10] and decacene (n=10)[11] have been reported. In 2020, scientists reported about the creation of dodecacene (n=12)[12] for the first time. Four years later, in the beginning of 2024, Ruan et al. succeeded in synthesizing unsubstitued tridecacene (n=13) on a (111)-gold surface. The acene was characterized by STM- and STS-measurements. [13]

Related compounds edit

The acene series have the consecutive rings linked in a linear chain, but other chain linkages are possible. The phenacenes have a zig-zag structure and the helicenes have a helical structure.

  • Macromolecular forms consisting of seven fused benzene rings
  •  
    Heptacene
  •  
    [7]Phenacene
  •  
    M-heptahelicene

Benz[a]anthracene, an isomer of tetracene, has three rings connected in a line and one ring connected at an angle.

References edit

  1. ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "acenes". doi:10.1351/goldbook.A00061
  2. ^ Electronic structure of higher acenes and polyacene: The perspective developed by theoretical analyses Holger F. Bettinger Pure Appl. Chem., Vol. 82, No. 4, pp. 905–915, 2010. doi:10.1351/PAC-CON-09-10-29
  3. ^ Anthony, John E. (2008). "The Larger Acenes: Versatile Organic Semiconductors". Angewandte Chemie International Edition. 47 (3): 452–83. doi:10.1002/anie.200604045. PMID 18046697.
  4. ^ Zade, Sanjio S.; Bendikov, Michael (2010). "Heptacene and Beyond: the Longest Characterized Acenes". Angewandte Chemie International Edition. 49 (24): 4012–5. doi:10.1002/anie.200906002. PMID 20468014.
  5. ^ Wu, Chun-Shian; Chai, Jeng-Da (2015-05-12). "Electronic Properties of Zigzag Graphene Nanoribbons Studied by TAO-DFT". Journal of Chemical Theory and Computation. 11 (5): 2003–2011. doi:10.1021/ct500999m. ISSN 1549-9618. PMID 26894252.
  6. ^ Seenithurai, Sonai; Chai, Jeng-Da (2016-09-09). "Effect of Li Adsorption on the Electronic and Hydrogen Storage Properties of Acenes: A Dispersion-Corrected TAO-DFT Study". Scientific Reports. 6 (1): 33081. arXiv:1606.03489. Bibcode:2016NatSR...633081S. doi:10.1038/srep33081. ISSN 2045-2322. PMC 5016802. PMID 27609626.
  7. ^ Tönshoff, Christina; Bettinger, Holger F. (2010). "Photogeneration of Octacene and Nonacene". Angewandte Chemie International Edition. 49 (24): 4125–8. doi:10.1002/anie.200906355. PMID 20432492.
  8. ^ Kaur, Irvinder; Jazdzyk, Mikael; Stein, Nathan N.; Prusevich, Polina; Miller, Glen P. (2010). "Design, Synthesis, and Characterization of a Persistent Nonacene Derivative". Journal of the American Chemical Society. 132 (4): 1261–3. doi:10.1021/ja9095472. PMID 20055388.
  9. ^ Purushothaman, Balaji; Bruzek, Matthew; Parkin, Sean; Miller, Anne-Frances; Anthony, John (2011). "Synthesis and Structural Characterization of Crystalline Nonacenes". Angew. Chem. Int. Ed. Engl. 50 (31): 7013–7017. doi:10.1002/anie.201102671. PMID 21717552.
  10. ^ Nonacene Generated by On-Surface Dehydrogenation Rafal Zuzak, Ruth Dorel, Mariusz Krawiec, Bartosz Such, Marek Kolmer, Marek Szymonski, Antonio M. Echavarren, Szymon Godlewski, ACS Nano, 2017, 11 (9), pp 9321–9329 doi:10.1021/acsnano.7b04728
  11. ^ Decacene: On-Surface Generation J. Krüger, F. García, F. Eisenhut, D. Skidin, J. M. Alonso, E. Guitián, D. Pérez, G. Cuniberti, F. Moresco, D. Peña, Angew. Chem. Int. Ed. 2017, 56, 11945. doi:10.1002/anie.201706156
  12. ^ Eisenhut, Frank; Kühne, Tim; García, Fátima; Fernández, Saleta; Guitián, Enrique; Pérez, Dolores; Trinquier, Georges; Cuniberti, Gianaurelio; Joachim, Christian; Peña, Diego; Moresco, Francesca (2020-01-28). "Dodecacene Generated on Surface: Reopening of the Energy Gap". ACS Nano. 14 (1): 1011–1017. arXiv:2004.02517. doi:10.1021/acsnano.9b08456. ISSN 1936-0851. PMID 31829618. S2CID 209341741.
  13. ^ Ruan, Zilin; Schramm, Jakob; Bauer, John B.; Naumann, Tim; Bettinger, Holger F.; Tonner-Zech, Ralf; Gottfried, J. Michael (2024-01-12). "Synthesis of Tridecacene by Multistep Single-Molecule Manipulation". Journal of the American Chemical Society. doi:10.1021/jacs.3c09392. ISSN 0002-7863. PMC 10870776.

April 12, 2024
acene, confused, with, class, hydronitrogens, known, azenes, organic, chemistry, acenes, polyacenes, class, organic, compounds, polycyclic, aromatic, hydrocarbons, made, benzene, c6h6, rings, which, have, been, linearly, fused, they, follow, general, molecular. Not to be confused with the class of hydronitrogens known as azenes In organic chemistry the acenes or polyacenes are a class of organic compounds and polycyclic aromatic hydrocarbons made up of benzene C6H6 rings which have been linearly fused 1 2 They follow the general molecular formula C4n 2H2n 4 The general structural formula for acenesThe larger representatives have potential interest in optoelectronic applications and are actively researched in chemistry and electrical engineering Pentacene has been incorporated into organic field effect transistors reaching charge carrier mobilities as high as 5 cm2 Vs The first 5 unsubstituted members are listed in the following table Name Number of rings Molecular formula Structural formulaAnthracene 3 C14H10Tetracene 4 C18H12Pentacene 5 C22H14Hexacene 6 C26H16Heptacene 7 C30H18Hexacene is not stable in air and dimerises upon isolation Heptacene and larger acenes is very reactive and has only been isolated in a matrix However bis trialkylsilylethynylated versions of heptacene have been isolated as crystalline solids 3 Larger acenes editDue to their increased conjugation length the larger acenes are also studied 4 Theoretically a number of reports are available on longer chains using density functional methods 5 6 They are also building blocks for nanotubes and graphene Unsubstituted octacene n 8 and nonacene n 9 7 have been detected in matrix isolation The first reports of stable nonacene derivatives claimed that due to the electronic effects of the thioaryl substituents the compound is not a diradical but a closed shell compound with the lowest HOMO LUMO gap reported for any acene 8 an observation in violation of Kasha s rule Subsequent work by others on different derivatives included crystal structures with no such violations 9 The on surface synthesis and characterization of unsubstituted parent nonacene n 9 10 and decacene n 10 11 have been reported In 2020 scientists reported about the creation of dodecacene n 12 12 for the first time Four years later in the beginning of 2024 Ruan et al succeeded in synthesizing unsubstitued tridecacene n 13 on a 111 gold surface The acene was characterized by STM and STS measurements 13 Related compounds editThe acene series have the consecutive rings linked in a linear chain but other chain linkages are possible The phenacenes have a zig zag structure and the helicenes have a helical structure Macromolecular forms consisting of seven fused benzene rings nbsp Heptacene nbsp 7 Phenacene nbsp M heptaheliceneBenz a anthracene an isomer of tetracene has three rings connected in a line and one ring connected at an angle References edit IUPAC Compendium of Chemical Terminology 2nd ed the Gold Book 1997 Online corrected version 2006 acenes doi 10 1351 goldbook A00061 Electronic structure of higher acenes and polyacene The perspective developed by theoretical analyses Holger F Bettinger Pure Appl Chem Vol 82 No 4 pp 905 915 2010 doi 10 1351 PAC CON 09 10 29 Anthony John E 2008 The Larger Acenes Versatile Organic Semiconductors Angewandte Chemie International Edition 47 3 452 83 doi 10 1002 anie 200604045 PMID 18046697 Zade Sanjio S Bendikov Michael 2010 Heptacene and Beyond the Longest Characterized Acenes Angewandte Chemie International Edition 49 24 4012 5 doi 10 1002 anie 200906002 PMID 20468014 Wu Chun Shian Chai Jeng Da 2015 05 12 Electronic Properties of Zigzag Graphene Nanoribbons Studied by TAO DFT Journal of Chemical Theory and Computation 11 5 2003 2011 doi 10 1021 ct500999m ISSN 1549 9618 PMID 26894252 Seenithurai Sonai Chai Jeng Da 2016 09 09 Effect of Li Adsorption on the Electronic and Hydrogen Storage Properties of Acenes A Dispersion Corrected TAO DFT Study Scientific Reports 6 1 33081 arXiv 1606 03489 Bibcode 2016NatSR 633081S doi 10 1038 srep33081 ISSN 2045 2322 PMC 5016802 PMID 27609626 Tonshoff Christina Bettinger Holger F 2010 Photogeneration of Octacene and Nonacene Angewandte Chemie International Edition 49 24 4125 8 doi 10 1002 anie 200906355 PMID 20432492 Kaur Irvinder Jazdzyk Mikael Stein Nathan N Prusevich Polina Miller Glen P 2010 Design Synthesis and Characterization of a Persistent Nonacene Derivative Journal of the American Chemical Society 132 4 1261 3 doi 10 1021 ja9095472 PMID 20055388 Purushothaman Balaji Bruzek Matthew Parkin Sean Miller Anne Frances Anthony John 2011 Synthesis and Structural Characterization of Crystalline Nonacenes Angew Chem Int Ed Engl 50 31 7013 7017 doi 10 1002 anie 201102671 PMID 21717552 Nonacene Generated by On Surface Dehydrogenation Rafal Zuzak Ruth Dorel Mariusz Krawiec Bartosz Such Marek Kolmer Marek Szymonski Antonio M Echavarren Szymon Godlewski ACS Nano 2017 11 9 pp 9321 9329 doi 10 1021 acsnano 7b04728 Decacene On Surface Generation J Kruger F Garcia F Eisenhut D Skidin J M Alonso E Guitian D Perez G Cuniberti F Moresco D Pena Angew Chem Int Ed 2017 56 11945 doi 10 1002 anie 201706156 Eisenhut Frank Kuhne Tim Garcia Fatima Fernandez Saleta Guitian Enrique Perez Dolores Trinquier Georges Cuniberti Gianaurelio Joachim Christian Pena Diego Moresco Francesca 2020 01 28 Dodecacene Generated on Surface Reopening of the Energy Gap ACS Nano 14 1 1011 1017 arXiv 2004 02517 doi 10 1021 acsnano 9b08456 ISSN 1936 0851 PMID 31829618 S2CID 209341741 Ruan Zilin Schramm Jakob Bauer John B Naumann Tim Bettinger Holger F Tonner Zech Ralf Gottfried J Michael 2024 01 12 Synthesis of Tridecacene by Multistep Single Molecule Manipulation Journal of the American Chemical Society doi 10 1021 jacs 3c09392 ISSN 0002 7863 PMC 10870776 Retrieved from https en wikipedia org w index php title Acene amp oldid 1210356508, wikipedia, wiki, book, books, library,

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