A Mechanistic Study of Halogen Addition and Photoelimination from π‑Conjugated Tellurophenes

A Mechanistic Study of Halogen Addition and Photoelimination from π‑Conjugated Tellurophenes

The ability to drive reactivity using visible light is of importance for many disciplines of chemistry and has significant implications for sustainable chemistry. Identifying photochemically active compounds and understanding photochemical mechanisms is important for the development of useful materi...

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Published in:Journal of the American Chemical Society Vol. 138; no. 8; pp. 2678 - 2689
Main Authors: Carrera, Elisa I, Lanterna, Anabel E, Lough, Alan J, Scaiano, Juan C, Seferos, Dwight S
Format: Journal Article
Language:English
Published: United States American Chemical Society 02-03-2016
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Abstract The ability to drive reactivity using visible light is of importance for many disciplines of chemistry and has significant implications for sustainable chemistry. Identifying photochemically active compounds and understanding photochemical mechanisms is important for the development of useful materials for synthesis and catalysis. Here we report a series of photoactive diphenyltellurophene compounds bearing electron-withdrawing and electron-donating substituents synthesized by alkyne coupling/ring closing or palladium-catalyzed ipso-arylation chemistry. The redox chemistry of these compounds was studied with respect to oxidative addition and photoelimination of bromine, which is of importance for energy storage reactions involving X2. The oxidative addition reaction mechanism was studied using density functional theory, the results of which support a three-step mechanism involving the formation of an initial η1 association complex, a monobrominated intermediate, and finally the dibrominated product. All of the tellurophene derivatives undergo photoreduction using 430, 447, or 617 nm light depending on the absorption properties of the compound. Compounds bearing electron-withdrawing substituents have the highest photochemical quantum efficiencies in the presence of an alkene trap, with efficiencies of up to 42.4% for a pentafluorophenyl-functionalized tellurophene. The photoelimination reaction was studied in detail through bromine trapping experiments and laser flash photolysis, and a mechanism is proposed. The photoreaction, which occurs by release of bromine radicals, is competitive with intersystem crossing to the triplet state of the brominated species, as evidenced by the formation of singlet oxygen. These findings should be useful for the design of new photochemically active compounds supported by main-group elements.
AbstractList The ability to drive reactivity using visible light is of importance for many disciplines of chemistry and has significant implications for sustainable chemistry. Identifying photochemically active compounds and understanding photochemical mechanisms is important for the development of useful materials for synthesis and catalysis. Here we report a series of photoactive diphenyltellurophene compounds bearing electron-withdrawing and electron-donating substituents synthesized by alkyne coupling/ring closing or palladium-catalyzed ipso-arylation chemistry. The redox chemistry of these compounds was studied with respect to oxidative addition and photoelimination of bromine, which is of importance for energy storage reactions involving X2. The oxidative addition reaction mechanism was studied using density functional theory, the results of which support a three-step mechanism involving the formation of an initial η(1) association complex, a monobrominated intermediate, and finally the dibrominated product. All of the tellurophene derivatives undergo photoreduction using 430, 447, or 617 nm light depending on the absorption properties of the compound. Compounds bearing electron-withdrawing substituents have the highest photochemical quantum efficiencies in the presence of an alkene trap, with efficiencies of up to 42.4% for a pentafluorophenyl-functionalized tellurophene. The photoelimination reaction was studied in detail through bromine trapping experiments and laser flash photolysis, and a mechanism is proposed. The photoreaction, which occurs by release of bromine radicals, is competitive with intersystem crossing to the triplet state of the brominated species, as evidenced by the formation of singlet oxygen. These findings should be useful for the design of new photochemically active compounds supported by main-group elements.
The ability to drive reactivity using visible light is of importance for many disciplines of chemistry and has significant implications for sustainable chemistry. Identifying photochemically active compounds and understanding photochemical mechanisms is important for the development of useful materials for synthesis and catalysis. Here we report a series of photoactive diphenyltellurophene compounds bearing electron-withdrawing and electron-donating substituents synthesized by alkyne coupling/ring closing or palladium-catalyzed ipso-arylation chemistry. The redox chemistry of these compounds was studied with respect to oxidative addition and photoelimination of bromine, which is of importance for energy storage reactions involving X2. The oxidative addition reaction mechanism was studied using density functional theory, the results of which support a three-step mechanism involving the formation of an initial η1 association complex, a monobrominated intermediate, and finally the dibrominated product. All of the tellurophene derivatives undergo photoreduction using 430, 447, or 617 nm light depending on the absorption properties of the compound. Compounds bearing electron-withdrawing substituents have the highest photochemical quantum efficiencies in the presence of an alkene trap, with efficiencies of up to 42.4% for a pentafluorophenyl-functionalized tellurophene. The photoelimination reaction was studied in detail through bromine trapping experiments and laser flash photolysis, and a mechanism is proposed. The photoreaction, which occurs by release of bromine radicals, is competitive with intersystem crossing to the triplet state of the brominated species, as evidenced by the formation of singlet oxygen. These findings should be useful for the design of new photochemically active compounds supported by main-group elements.
Author Lough, Alan J
Carrera, Elisa I
Lanterna, Anabel E
Scaiano, Juan C
Seferos, Dwight S
AuthorAffiliation Department of Chemistry
Department of Chemistry and Centre for Catalysis Research and Innovation
University of Ottawa
University of Toronto
AuthorAffiliation_xml – name: Department of Chemistry and Centre for Catalysis Research and Innovation
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Author_xml – sequence: 1
  givenname: Elisa I
  surname: Carrera
  fullname: Carrera, Elisa I
  organization: University of Toronto
– sequence: 2
  givenname: Anabel E
  surname: Lanterna
  fullname: Lanterna, Anabel E
  organization: University of Ottawa
– sequence: 3
  givenname: Alan J
  surname: Lough
  fullname: Lough, Alan J
  organization: University of Toronto
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  givenname: Juan C
  surname: Scaiano
  fullname: Scaiano, Juan C
  email: scaiano@photo.chem.uottawa.ca
  organization: University of Ottawa
– sequence: 5
  givenname: Dwight S
  surname: Seferos
  fullname: Seferos, Dwight S
  email: dseferos@chem.utoronto.ca
  organization: University of Toronto
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26853739$$D View this record in MEDLINE/PubMed
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Title A Mechanistic Study of Halogen Addition and Photoelimination from π‑Conjugated Tellurophenes
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