Novel Approach to the Synthesis of Bithiophenesilane Dendrimers with Efficient Intramolecular Energy Transfer

Capa

Citar

Texto integral

Acesso aberto Acesso aberto
Acesso é fechado Acesso está concedido
Acesso é fechado Somente assinantes

Resumo

A synthetic scheme allowing the preparation of nanostructured organosilicon luminophores of branched or dendritic structure with up to 18 bithiophenesilane donor fragments and one central acceptor fragment has been elaborated. This universal scheme has been successfully upscaled to 20 g of the product, and its efficiency has been verified by the synthesis of two earlier unknown bithiophenesilane dendrimers with dense molecular shell and the central acceptor fragment, 1,4-bis(5-phenylthienyl-2-yl)benzene. The synthesis of more branched dendrimers under the Suzuki reaction conditions has led to the formation of the side products with the rupture of the Si–C(thiophene) bond, not typical of the synthesis of analogous compounds with lower branching degree under the same conditions.

Sobre autores

M. Skorotetskii

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: skoroteckiy@ispm.ru
117393, Moscow, Russia

O. Borshchev

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: skoroteckiy@ispm.ru
117393, Moscow, Russia

E. Kleimyuk

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: skoroteckiy@ispm.ru
117393, Moscow, Russia

E. Svidchenko

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: skoroteckiy@ispm.ru
117393, Moscow, Russia

N. Surin

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: skoroteckiy@ispm.ru
117393, Moscow, Russia

S. Ponomarenko

Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences; Department of Chemistry, Moscow State University

Autor responsável pela correspondência
Email: skoroteckiy@ispm.ru
117393, Moscow, Russia; 119991, Moscow, Russia

Bibliografia

  1. Ostroverkhova O. // Chem. Rev. 2016. V. 116. № 22. P. 13279.
  2. Mukhopadhyay R.D., Kim Y., Koo J., Kim K. // Acc. Chem. Res. 2018. V. 51. № 11. P. 2730.
  3. Abd-El-Aziz A., Abdelghani A., Wagner B., Bissessur R. // Macromol. Rapid Commun. 2019. V. 40. № 1. P. 1800711.
  4. Chang Y.-T., Sharma S., Hung M.-K., Lee Y.-H., Chen S.-A. // Sci. Rep. 2016. V. 6. P. 38404.
  5. Ya X., Xu X., Zhou G. // J. Mater. Chem. C. 2015. V. 3. P. 913.
  6. Zhu M., Yang Ch. // Chem. Soc. Rev. 2013. V. 42. P. 4963.
  7. Kim Y.-H., Jeong H.-C., Kim S.-H., Yang K., Kwon S.-K. // Adv. Funct. Mater. 2005. V. 15. P. 1799.
  8. Trofymchuk K., Reisch A., Didier P., Fras F., Gilliot P., Mely Y., Klymchenko A. // Nat. Photonics. 2018. V. 12. № 3. P. 185.
  9. Zhang C., Chen P., Hu W. // Small. 2016. V. 12. № 10. P. 1252.
  10. Li Z., Sun Yu., Li H., Ren J., Si Ch., Liu X., Yu J., Wang H., Shi F., Hao Y. // Synthetic Metals. 2016. V. 217. P. 102.
  11. Xue Z., Finke Aa., Moore J. // Macromolecules. 2010. V. 43. № 22. P. 9277.
  12. Starikova T.Y., Surin N.M., Borshchev O.V., Pisarev S.A., Svidchenko E.A., Fedorov Y.V., Ponomarenko S.A. // J. Mater. Chem. C. 2016. V. 4. № 21. P. 4699.
  13. Borshchev O., Surin N., Skorotetcky M., Ponomarenko S. // INEOS OPEN. 2019. V. 2. № 4. P. 112.
  14. Skorotetcky M., Surin N., Borshchev O., Ponomarenko S. // Mendeleev Commun. 2017. V. 27. № 4. P. 377.
  15. Ponomarenko S., Surin N., Skorotetcky M., Borshchev O., Pisarev S., Svidchenko E., Fedorov Y., Molins F., Brixner T. // J. Mater. Chem. C. 2019. V. 7. P. 14612.
  16. Sidorenkov A., Borshchev O., Fazliakhmetov A., Luka-nov A., Lubsandorzhiev B., Lubsandorzhiev S., Nanza-nov D., Ponomarenko S., Skorotetcky M., Surin N., Svidchenko E., Ushakov N., Voronin D. // Eur. Phys. J. C. 2022. V. 82. P. 1038.
  17. Borshchev O., Kleymyuk E., Surin N., Svidchenko E., Fedorov Y., Dmitryakov P., Chvalun S., Ponomarenko S. // Org. Photonics Photovolt. 2017. V. 5. P. 1.
  18. Muzafarov A., Tatarinova E., Vasilenko N., Ignat’eva G. // Organosilicon Compounds. Amsterdam: Elsevier Acad. Press., 2017. P. 323. Ch. 8.
  19. Rebrov E., Leshchiner I., Muzafarov A. // Macromolecules. 2012. V. 45. № 21. P. 8796.
  20. Serkova E., Krasnova I., Milenin S., Selezneva E., Tatarinova E., Boldyrev K., Korlyukov A., Zubavichus Y., Buzin M., Serenko O., Shifrina Z., Muzafarov A. // Polymer. 2018. V. 138. P. 83.
  21. Luponosov Y., Ponomarenko S., Surin N., Muzafarov A. // Org. Lett. 2008. V. 10. № 13. P. 2753.
  22. Boldyrev K., Tatarinova E., Meshkov I., Vasilenko N., Buzin M., Novikov R., Vasil’ev V., Shtykova E., Feigin L., Bystrova A., Chvalun S., Muzafarov A. // Polymer. 2019. V. 174. P. 159.
  23. Pongkittiphan V., Theodorakis E., Chavasiri W. // Tetrahedron Lett. 2009. V. 50. P. 5080.
  24. Savela R., Zawartka W., Leino R. // Organometallics. 2012. V. 31. P. 3199.
  25. Skorotetcky M., Borshchev O., Cherkaev G., Ponomarenko S. // Russ. J. Org. Chem. 2019. V. 55. P. 25.
  26. Főrster T. // Discuss. Faraday Soc. 1959. V. 27. P. 7.

Arquivos suplementares

Arquivos suplementares
Ação
1. JATS XML
Baixar
2.

Baixar (151KB)
Metadados
3.

Baixar (73KB)
Metadados
4.

Baixar (89KB)
Metadados
5.

Baixar (429KB)
Metadados
6.

Baixar (295KB)
Metadados
7.

Baixar (221KB)
Metadados

Declaração de direitos autorais © М.С. Скоротецкий, О.В. Борщев, Е.А. Клеймюк, Е.А. Свидченко, Н.М. Сурин, С.А. Пономаренко, 2023