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Science and Technology of Advanced Materials Volume 19, 2018 - Issue 1
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Focus on New Materials Science and Element Strategy

π-Electron systems containing Si=Si double bonds

Tsukasa MatsuoDepartment of Applied Chemistry, Faculty of Science and Engineering, Kindai University, Osaka, JapanCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-5538-8044
ORCID Icon &
Naoki HayakawaDepartment of Applied Chemistry, Faculty of Science and Engineering, Kindai University, Osaka, Japan
Pages 108-129 | Received 15 Sep 2017, Accepted 05 Dec 2017, Published online: 07 Feb 2018

References

  • Aufray B , Kara A , Vizzini S , et al . Graphene-like silicon nanoribbons on Ag(110): a possible formation of silicene. Appl Phys Lett. 2010;96:183102-(1–3).
  • Lalmi B , Oughaddou H , Enriquez H , et al . Epitaxial growth of a silicene sheet. Appl Phys Lett. 2010;97:223109-(1–2).
  • Spencer MJS , Morishita T . Silicene: structure, properties and applications. Cham: Springer; 2016.10.1007/978-3-319-28344-9
  • Marutheeswaran S , Pancharatna PD , Balakrishnarajan MM . Preference for a propellane motif in pure silicon nanosheets. Phys Chem Chem Phys. 2014;16(23):11186–11190.10.1039/C4CP01286K
  • Cordero B , Gómez V , Platero-Prats AE , et al . Covalent radii revisited. Dalton Trans. 2008;40:2832–2838.10.1039/b801115j
  • West R , Fink MJ , Michl J . Tetramesityldisilene, a stable compound containing a silicon–silicon double bond. Science. 1981;214(4527):1343–1344.10.1126/science.214.4527.1343
  • Fink MJ , Michalczyk MJ , Haller KJ , et al . The X-ray crystal structure of tetramesityldisilene. J Chem Soc, Chem Commun. 1983;18:1010–1011.10.1039/c39830001010
  • Fink MJ , Michalczyk MJ , Haller KJ , et al . X-ray crystal structures for two disilenes. Organometallics. 1984;3(5):793–800.10.1021/om00083a025
  • West R . The disilenes: chemistry of silicon-silicon double bonds. Pure Appl Chem. 1984;56(1):163–173.
  • Shepherd BD , Campana CF , West R . Crystallographic analysis of thermochromic, unsolvated tetramesityldisilene at 173 K and 295 K. Heteroat Chem. 1990;1(1):1–7.10.1002/(ISSN)1098-1071
  • Wind M , Powell DR , West R . Structure of the THF solvate of tetramesityldisilene. Organometallics. 1996;15(26):5772–5773.10.1021/om960753n
  • Okazaki R , West R . Chemistry of stable disilenes. Adv Organomet Chem. 1996;39:231–273.
  • Power PP . π-Bonding and the lone pair effect in multiple bonds between heavier main group elements. Chem Rev. 1999;99(12):3463–3504.10.1021/cr9408989
  • Lee VY , Sekiguchi A . Heteronuclear heavy alkenes E=E′ (E, E′ = group 14 elements):  germasilenes, silastannenes, germastannenes … next stop? Organometallics. 2004;23(12):2822–2834.10.1021/om040027 h
  • Iwamoto T . Novel stable silicon-based π-electron systems: synthesis, unique structure, and properties of cyclic, spiroconjugated, and cumulative silicon–silicon doubly-bonded compounds. Bull Chem Soc Jpn. 2005;78(3):393–404.10.1246/bcsj.78.393
  • Kira M , Iwamoto T . Progress in the chemistry of stable disilenes. Adv Organomet Chem. 2006;54:73–148.10.1016/S0065-3055(05)54003-6
  • Wang Y , Robinson GH . Unique homonuclear multiple bonding in main group compounds. Chem Commun. 2009;32:5201–5213.10.1039/b908048a
  • Fischer RC , Power PP . π-Bonding and the lone pair effect in multiple bonds involving heavier main group elements: developments in the new millennium. Chem Rev. 2010;110(7):3877–3923.10.1021/cr100133q
  • Lee VY , Sekiguchi A . Organometallic compounds of low-coordinate Si, Ge, Sn and Pb. West Sussex: Wiley; 2010.10.1002/9780470669266
  • Scheschkewitz D . The versatile chemistry of disilenides: disila analogues of vinyl anions as synthons in low-valent silicon chemistry. Chem Lett. 2011;40(1):2–11.10.1246/cl.2011.2
  • Asay M , Sekiguchi A . Recent developments in the reactivity of stable disilynes. Bull Chem Soc Jpn. 2012;85(12):1245–1261.10.1246/bcsj.20120212
  • Sasamori T , Tokitoh N . A new family of multiple-bond compounds between heavier group 14 elements. Bull Chem Soc Jpn. 2013;86(9):1005–1021.10.1246/bcsj.20130134
  • Wakita K , Tokitoh N , Okazaki R , et al . Synthesis and properties of an overcrowded silabenzene stable at ambient temperature. Angew Chem Int Ed. 2000;39(3):364–636.
  • Kinjo R , Ichinohe M , Sekiguchi A , et al . Reactivity of a disilyne RSi≡SiR (R = SiiPr[CH(SiMe3)2]2) toward π-bonds: stereospecific addition and a new route to an isolable 1,2-disilabenzene. J Am Chem Soc. 2007;129(25):7766–7767.10.1021/ja072759 h
  • Han JS , Sasamori T , Mizuhata Y , et al . Reactivity of an aryl-substituted silicon–silicon triple bond: 1,2-disilabenzenes from the reactions of a 1,2-diaryldisilyne with alkynes. Dalton Trans. 2010;39(39):9238–9240.10.1039/c0dt00115e
  • Ishida S , Iwamoto T , Kabuto C , et al . A stable silicon-based allene analogue with a formally sp-hybridized silicon atom. Nature. 2003;421(6924):725–727.10.1038/nature01380
  • Tanaka H , Inoue S , Ichinohe M , et al . Synthesis and striking reactivity of an isolable tetrasilyl-substituted trisilaallene. Organometallics. 2011;30(13):3475–3478.10.1021/om200405e
  • Sekiguchi A , Kinjo R , Ichinohe M . A stable compound containing a silicon–silicon triple bond. Science. 2004;305(5691):1755–1757.10.1126/science.1102209
  • Wiberg N , Niedermayer W , Fischer G , et al . Synthesis, structure and dehalogenation of the disilene RClSi=SiClR [R = (tBu3Si)2MeSi]. Eur J Inorg Chem. 2002;5:1066–1070.10.1002/(ISSN)1099-0682
  • Sasamori T , Hironaka K , Sugiyama Y , et al . Synthesis and reactions of a stable 1,2-diaryl-1,2-dibromodisilene: a precursor for substituted disilenes and a 1,2-diaryldisilyne. J Am Chem Soc. 2008;130(42):13856–13857.10.1021/ja8061002
  • Ishida S , Sugawara R , Misawa Y , et al . Palladium and platinum η2-disilyne complexes bearing an isolable dialkyldisilyne as a ligand. Angew Chem Int Ed. 2013;52(49):12869–12873.10.1002/anie.201308517
  • Abersfelder K , White AJP , Rzepa HS , et al . A tricyclic aromatic isomer of hexasilabenzene. Science. 2010;327(5965):564–566.10.1126/science.1181771
  • Wang Y , Xie Y , Wei P , et al . A stable silicon(0) compound with a Si=Si double bond. Science. 2008;321(5892):1067–1071.
  • Suzuki K , Matsuo T , Hashizume D , et al . A planar rhombic charge-separated tetrasilacyclobutadiene. Science. 2011;331(6022):1306–1309.10.1126/science.1199906
  • Hissler M , Dyer PW , Réau R . Linear organic π-conjugated systems featuring the heavy Group 14 and 15 elements. Coord Chem Rev. 2003;244(1–2):1–44.10.1016/S0010-8545(03)00098-5
  • Gates DP . Expanding the analogy between P=C and C=C bonds to polymer science. Top Curr Chem. 2005;250:107–126.10.1007/b98358
  • Hissler M , Dyer PW , Reau R . The rise of organophosphorus derivatives in π-conjugated materials chemistry. Top Curr Chem. 2005;250:127–163.10.1007/b98358
  • Baumgartner T , Réau R . Organophosphorus π-conjugated materials. Chem Rev. 2006;106(11):4681–4727.10.1021/cr040179 m
  • Grimsdale AC , Müllen K . Oligomers and polymers based on bridged phenylenes as electronic materials. Macromol Rapid Commun. 2007;28(17):1676–1702.10.1002/(ISSN)1521-3927
  • Scheschkewitz D . Anionic reagents with silicon-containing double bonds. Chem A Eur J. 2009;15(11):2476–2485.10.1002/chem.v15:11
  • Matsuo T , Li B , Tamao K . π-Conjugated phosphasilenes stabilized by fused-ring bulky ‘Rind’ groups. C R Chim. 2010;13(8–9):1104–1110.10.1016/j.crci.2010.07.005
  • Bates JI , Dugal-Tessier J , Gates DP . Phospha-organic chemistry: from molecules to polymers. Dalton Trans. 2010;39(13):3151–3159.10.1039/B918938F
  • Matsuo T , Kobayashi M , Tamao K . π-Conjugated disilenes stabilized by fused-ring bulky ‘Rind’ groups. Dalton Trans. 2010;39(39):9203–9208.10.1039/c0dt00287a
  • Simpson MC , Protasiewicz JD . Phosphorus as a carbon copy and as a photocopy: new conjugated materials featuring multiply bonded phosphorus. Pure Appl Chem. 2013;85(4):801–815.
  • Präsang C , Scheschkewitz D . Reactivity in the periphery of functionalised multiple bonds of heavier group 14 elements. Chem Soc Rev. 2016;45(4):900–921.10.1039/C5CS00720H
  • Matsuo T , Suzuki K , Fukawa T , et al . Synthesis and structures of a series of bulky ‘Rind-Br’ based on a rigid fused-ring s-hydrindacene skeleton. Bull Chem Soc Jpn. 2011;84(11):1178–1191.10.1246/bcsj.20110090
  • Chang VSC , Kennedy JP . New telechelic polymers and sequential copolymers by polyfunctional initiator-transfer agents (inifers). Polym Bull. 1981;4(9):513–520.
  • Li B , Matsuo T , Hashizume D , et al . π-Conjugated phosphasilenes stabilized by fused-ring bulky groups. J Am Chem Soc. 2009;131(37):13222–13223.10.1021/ja9051153
  • Shoji Y , Matsuo T , Hashizume D , et al . A stable doubly hydrogen-bridged butterfly-shaped diborane(4) compound. J Am Chem Soc. 2010;132(24):8258–8260.10.1021/ja102913 g
  • Otani T , Hachiya M , Hashizume D , et al . The synthesis of highly coplanar oligothiophenes induced by bulky Rind groups. Chemistry. 2010;6(2):350–354.
  • Hachiya M , Ito M , Matsuo T , et al . Air- and moisture-stable p-monothiobenzoquinones incorporated in an octaalkyl-s-hydrindacene Skeleton. Org Lett. 2011;13(10):2666–2669.10.1021/ol200768b
  • Li B , Matsuo T , Fukunaga T , et al . Neutral and cationic gold(I) complexes with π-conjugated phosphasilene ligands. Organometallics. 2011;30(13):3453–3456.10.1021/om2003442
  • Shoji Y , Matsuo T , Hashizume D , et al . Boron–boron σ-bond formation by two-electron reduction of a H-bridged dimer of monoborane. J Am Chem Soc. 2011;133(29):11058–11061.10.1021/ja203333j
  • Suzuki K , Matsuo T , Hashizume D , et al . Room-temperature dissociation of 1,2-dibromodisilenes to bromosilylenes. J Am Chem Soc. 2011;133(49):19710–19713.10.1021/ja209736d
  • Li L , Fukawa T , Matsuo T , et al . A stable germanone as the first isolated heavy ketone with a terminal oxygen atom. Nat Chem. 2012;4(5):361–365.10.1038/nchem.1305
  • Li B , Tsujimoto S , Li Y , et al . Synthesis and characterization of diphosphenes bearing fused-ring bulky rind groups. Heteroat Chem. 2014;25(6):612–618.10.1002/hc.2014.25.issue-6
  • Shoji Y , Kaneda S , Fueno H , et al . An isolable diborane(4) compound with terminal B–H bonds: structural characteristics and electronic properties. Chem Lett. 2014;43(10):1587–1589.10.1246/cl.140507
  • Agou T , Hayakawa N , Sasamori T , et al . Reactions of diaryldibromodisilenes with N-heterocyclic carbenes: formation of formal bis-NHC adducts of silyliumylidene cations. Chemistry. 2014;20(30):9246–9249.10.1002/chem.201403083
  • Nagata K , Murosaki T , Agou T , et al . Activation of dihydrogen by masked doubly bonded aluminum species. Angew Chem Int Ed. 2016;55(41):12877–12880.10.1002/anie.201606684
  • Murosaki T , Kaneda S , Maruhashi R , et al . Synthesis and structural characteristics of discrete organoboron and organoaluminum hydrides incorporating bulky Eind groups. Organometallics. 2016;35(19):3397–3405.10.1021/acs.organomet.6b00633
  • Hayakawa N , Sadamori K , Tsujimoto S , et al . Cleavage of a P=P double bond mediated by N-heterocyclic carbenes. Angew Chem Int Ed. 2017;56(21):5765–5769.10.1002/anie.201701201
  • Otani T , Miyoshi M , Shibata T , et al . Thermally stable monosubstituted thiophene 1-oxide and 1-imides stabilized by a bulky rind group at their 3-position: synthesis, structure, and inversion barriers on the sulfur atom. Bull Chem Soc Jpn. 2017;90(6):697–705.10.1246/bcsj.20170042
  • Ito M , Hashizume D , Fukunaga T , et al . Isolated monomeric and dimeric mixed diorganocuprates based on the size-controllable bulky ‘Rind’ ligands. J Am Chem Soc. 2009;131(50):18024–18025.10.1021/ja9071964
  • Nishigaki J , Tsunoyama R , Tsunoyama H , et al . A new binding motif of sterically demanding thiolates on a gold cluster. J Am Chem Soc. 2012;134(35):14295–14297.10.1021/ja305477a
  • Tanifuji K , Yamada N , Tajima T , et al . A convenient route to synthetic analogues of the oxidized form of high-potential iron–sulfur proteins. Inorg Chem. 2014;53(8):4000–4009.10.1021/ic402890 k
  • Goda S , Nikai M , Ito M , et al . Synthesis and magnetic properties of linear two-coordinate monomeric diaryliron(II) complexes bearing fused-ring bulky ‘Rind’ groups. Chem Lett. 2016;45(6):634–636.10.1246/cl.160216
  • Taguchi H , Sasaki D , Takeuchi K , et al . Unsymmetrical PNP-pincer type phosphaalkene ligands protected by a fused-ring bulky Eind group: synthesis and applications to Rh(I) and Ir(I) complexes. Organometallics. 2016;35(10):1526–1533.10.1021/acs.organomet.6b00113
  • Kanazawa S , Ohira T , Goda S , et al . Synthesis and structural characterization of lithium and titanium complexes bearing a bulky aryloxide ligand based on a rigid fused-ring s-hydrindacene skeleton. Inorg Chem. 2016;55(13):6643–6652.10.1021/acs.inorgchem.6b00762
  • Yoshimoto T , Hashimoto H , Hayakawa N , et al . Synthesis of a tungsten–silylyne complex via stepwise proton and hydride abstraction from a hydrido hydrosilylene complex. Organometallics. 2016;35(7):921–924.
  • Takeuchi K , Taguchi H , Tanigawa I , et al . A square-planar complex of platinum(0). Angew Chem Int Ed. 2016;55(49):15347–15350.10.1002/anie.v55.49
  • Matsuo T , Tamao K . Fused-ring bulky ‘Rind’ groups producing new possibilities in elemento-organic chemistry. Bull Chem Soc Jpn. 2015;88(9):1201–1220.
  • Burroughes JH , Bradley DDC , Brown AR , et al . Light-emitting diodes based on conjugated polymers. Nature. 1990;347(6293):539–541.10.1038/347539a0
  • Junkers T , Vandenbergh J , Adriaensens P , et al . Synthesis of poly(p-phenylene vinylene) materials via the precursor routes. Polym Chem. 2012;3(2):275–285.10.1039/C1PY00345C
  • Martin RE , Diederich F . Linear monodisperse π-conjugated oligomers: model compounds for polymers and more. Angew Chem Int Ed. 1999;38(10):1350–1377.10.1002/(ISSN)1521-3773
  • Gierschner J , Cornil J , Egelhaaf H-J . Optical bandgaps of π-conjugated organic materials at the polymer limit: experiment and theory. Adv Mater. 2007;19(2):173–191.10.1002/(ISSN)1521-4095
  • Praveen VK , Ranjith C , Bandini E , et al . Oligo(phenylenevinylene) hybrids and self-assemblies: versatile materials for excitation energy transfer. Chem Soc Rev. 2014;43(12):4222–4242.10.1039/C3CS60406C
  • Bejan I , Scheschkewitz D . Two Si=Si double bonds connected by a phenylene bridge. Angew Chem Int Ed. 2007;46(30):5783–5786.10.1002/(ISSN)1521-3773
  • Fukazawa A , Li Y , Yamaguchi S , et al . Coplanar oligo(p-phenylenedisilenylene)s based on the octaethyl-substituted s-hydrindacenyl groups. J Am Chem Soc. 2007;129(46):14164–14165.10.1021/ja0764207
  • Scheschkewitz D . A silicon analogue of vinyllithium: structural characterization of a disilenide. Angew Chem Int Ed. 2004;43(22):2965–2967.10.1002/(ISSN)1521-3773
  • Jeck J , Bejan I , White AJP , et al . Transfer of a disilenyl moiety to aromatic substrates and lateral functional group transformation in aryl disilenes. J Am Chem Soc. 2010;132(48):17306–17315.10.1021/ja107547s
  • Li L , Matsuo T , Hashizume D , et al . Coplanar oligo(p-phenylenedisilenylene)s as Si═Si analogues of oligo(p-phenylenevinylene)s: Evidence for extended π-conjugation through the carbon and silicon π-frameworks. J Am Chem Soc. 2015;137(47):15026–15035.10.1021/jacs.5b10113
  • Frisch MJ , Trucks GW , Schlegel HB , et al . Gaussian 09, Revision B.01 and Revision D.01. Wallingford CT: Gaussian; 2010.
  • Meier H . Conjugated oligomers with terminal donor–acceptor substitution. Angew Chem Int Ed. 2005;44(17):2482–2506.10.1002/(ISSN)1521-3773
  • Meier H , Stalmach U , Kolshorn H . Effective conjugation length and UV/vis spectra of oligomers. Acta Polym. 1997;48(9):379–384.10.1002/actp.1997.010480905
  • Zhu XZ , Tsuji H , Navarrete JTL , et al . Carbon-bridged oligo(phenylenevinylene)s: stable π-systems with high responsiveness to doping and excitation. J Am Chem Soc. 2012;134(46):19254–19259.10.1021/ja309318s
  • Hayakawa N , Nishimura S , Kazusa N , et al . π-Conjugation between a Si═Si double bond and thiophene rings: synthesis, structural characteristics, and photophysical properties of 1,2-bis(thiophen-2-yl)disilene and 1,2-bis(2,2′-bithiophen-5-yl)disilene. Organometallics. 2017;36(17):3226–3233.10.1021/acs.organomet.7b00370
  • Sasamori T , Yuasa A , Hosoi Y , et al . 1,2-Bis(ferrocenyl)disilene: a multistep redox system with an Si═Si double bond. Organometallics. 2008;27(14):3325–3327.10.1021/om8003543
  • Yuasa A , Sasamori T , Hosoi Y , et al . Synthesis and properties of stable 1,2-bis(metallocenyl)disilenes: novel d–π conjugated systems with a Si=Si double bond. Bull Chem Soc Jpn. 2009;82(7):793–805.10.1246/bcsj.82.793
  • Sato T , Mizuhata Y , Tokitoh N . 1,2-dialkynyldisilenes: silicon analogues of (E)-enediyne. Chem Commun. 2010;46(24):4402–4404.10.1039/c0cc00406e
  • Kobayashi M , Matsuo T , Fukunaga T , et al . Air-stable, room-temperature emissive disilenes with π-extended aromatic groups. J Am Chem Soc. 2010;132(43):15162–15163.10.1021/ja108094 m
  • Kobayashi M , Hayakawa N , Nakabayashi K , et al . Highly coplanar (E)-1,2-di(1-naphthyl)disilene involving a distinct CH–π interaction with the perpendicularly oriented protecting Eind group. Chem Lett. 2014;43(4):432–434.10.1246/cl.131043
  • Watanabe H , Takeuchi K , Fukawa N , et al . Air-stable tetrakis(2,4,6-triisopropylphenyl)disilene. Direct synthesis of disilene from dihalomonosilane. Chem Lett. 1987;16(7):1341–1344.10.1246/cl.1987.1341
  • Shizuka H , Tanaka H , Okazaki K , et al . Emission from the excited state of tetraneopentyldisilene. J Chem Soc, Chem Commun. 1986;10:748–750.10.1039/c39860000748
  • Tamao K , Kobayashi M , Matsuo T , et al . The first observation of electroluminescence from di(2-naphthyl)disilene, an Si=Si double bond-containing π-conjugated compound. Chem Commun. 2012;48(7):1030–1032.10.1039/C1CC16067B
  • Groenendaal L , Jonas F , Freitag D , et al . Poly(3,4-ethylenedioxythiophene) and its derivatives: past, present, and future. Adv Mater. 2000;12(7):481–494.10.1002/(ISSN)1521-4095
  • Tokyo Chemical Industry Co. Ltd . website for customers in Japan. Available from http://www.tcichemicals.com/ja/jp/disilene.html. (EMind)Br (B4379), (Eind)Br (B4380), (E)-1,2-di(1-naphthyl)disilene (B4421) and (E)-1,2-di(2-naphthyl)disilene (B4422).
  • Kobayashi M , Hayakawa N , Matsuo T , et al . (Z)-1,2-di(1-pyrenyl)disilene: synthesis, structure, and intramolecular charge-transfer emission. J Am Chem Soc. 2016;138(3):758–761.10.1021/jacs.5b11970
  • Christian R , Thomas W . Solvent and solvent effects in organic chemistry. Weinhelm: Wiley-VCH; 2011. p. 549.
  • Reed AE , Curtiss LAM , Weinhold F . Intermolecular interactions from a natural bond orbital, donor-acceptor viewpoint. Chem Rev. 1988;88(6):899–926.10.1021/cr00088a005
  • Iwamoto T , Kobayashi M , Uchiyama K , et al . Anthryl substituted trialkyldisilene showing distinct intramolecular charge transfer transition. J Am Chem Soc. 2009;131(9):3156–3157.10.1021/ja8093313
  • Kosai T , Ishida S , Iwamoto T . Heteroaryldisilenes: heteroaryl groups serve as electron acceptors for Si=Si double bonds in intramolecular charge transfer transitions. Dalton Trans. 2017;46(34):11271–11281.10.1039/C7DT02357J
  • Obeid NM , Klemmer L , Maus D , et al . (Oligo)aromatic species with one or two conjugated Si=Si bonds: near-IR emission of anthracenyl-bridged tetrasiladiene. Dalton Trans. 2017;46(27):8839–8848.10.1039/C7DT00397H
  • Hayakawa N , Matsuo T . Unpublished results.
  • Sekiguchi A , Yatabe T , Kabuto C , et al . The missing hexasilaprismane: synthesis, X-ray analysis and photochemical reactions. J Am Chem Soc. 1993;115(13):5853–5854.10.1021/ja00066a075
  • Tsurusaki A , Iizuka C , Otsuka K , et al . Cyclopentasilane-fused hexasilabenzvalene. J Am Chem Soc. 2013;135(44):16340–16343.10.1021/ja409074 m
  • Szilvási T , Veszprémi T . Molecular tailoring: reaction path control with bulky substituents. Organometallics. 2012;31(8):3207–3212.10.1021/om201246 g
  • Weidenbruch M , Willms S , Saak W , et al . Hexaaryltetrasilabuta-1,3-diene: a molecule with conjugated Si=Si double bonds. Angew Chem Int Ed English. 1999;36(22):2503–2504.
  • Ichinohe M , Sanuki K , Inoue S , et al . Disilenyllithium from tetrasila-1,3-butadiene: a silicon analogue of a vinyllithium. Organometallics. 2004;23(13):3088–3090.10.1021/om040056s
  • Uchiyama K , Nagendran S , Ishida S , et al . Thermal and photochemical cleavage of Si=Si double bond in retrasila-1,3-diene. J Am Chem Soc. 2007;129(35):10638–10639.10.1021/ja0741473

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