Vestnik On-line
Orenburg State University november 23, 2024   RU/EN
Headings of Vestnik
Pedagogics
Psychology
Other

Search
Vak
Антиплагиат
Orcid
Viniti
ЭБС Лань
Rsl
Лицензия Creative Commons

2012, № 12 (148)



Lantukh Yu.D., Pashkevich S.N. SUPERLUMINESCENCE IN THE DNA-DYE FILM STRUCTURESThe method of production of optical uniform double-helical DNA film structures is proposed. These structures were formed according to the "guest-host" principle and the dye molecules act as the "guest" and demonstrate high fluorescence capability. Superluminescence of Pyronin G is realized in such system.Key words: DNA films, "guest-host" principle, Pyronin G, superluminescence

Download
References:

1. Seeman N.S. Nanomaterials based on DNA // Annu. Rev. Biochem. — 2010. — V. 79. — P. 65–87.

2. Steckl A.J., Spaeth H., et al. DNA as an Optical Material // OPN Optics & Photonics News. — 2011 — P.35-39.

3. Fredericq E., Houssier C. Study of the Interaction of DNA and Acridine Orange by Various Optical Methods // Biopolymers — 1972. — V. 11, — N. 11. — P. 2281-2308.

4. Geacintov N.E., Waldmeyer J., Kuzmin V.A., Kolubayev T. Dynamics of the Binding of Acridine Dyes to DNA Investigated by Triplet Excited State Probe Techniques // Journal of physical chemistry — 1981. — V.85(24). — P. 3608-3613.

5. Kononov A.I., Moroshkina E. B., Tkachenko N. V., Lemmetyinen H. Photophysical processes in the complexes of DNA with ethidium bromide and acridine orange: A Femtosecond Study // J. Phys. Chem. B. — 2001. — V.105 (2). — P. 535-541.

6. Kapuscinski J., Darzynkiewicz Z. Interactions of pyronin Y(G) with nucleic acids // Cytometry. — 1987. — V. 8 — P.129-137.

7. Darzynkiewicz Z., Kapuscinski J., Traganos F., Crissman H.A. Application of pyronin Y(G) in cytochemistry of nucleic acids // Cytometry. — 1987. — V. 8 — P.138-145.

8. Lantukh Yu.D., Pashkevich S.N. et al. Spectroptical features of biopolymer DNA films — acridine orange // Optics and spectroscopy. — 2011. — Vol. 110. — №6. — P. 932–937.

9. Mayer G.V., Kopylova T.N. et al. Active polymer fibers with organic stain // Quantum electronics. — 2007. — Vol. 37. — №1. — P. 53-59.

10. Thin-film lasers based on dye-deoxyribonucleic acid-lipid complexes // Appl. Phys. Lett. — 2002. — V. 81. — P. 1372–1374.

11 Kawabe Y., Wang L., Horinouchi S., T., Ogata N. Amplified spontaneous emission from fluorescent-dye-doped DNA±surfactant complex films. // Adv. mater. — 2000. — 12. — No. 17. — P. 1281-1283.

12. Mysliwiec J., Sznitko L., et al. Lasing effect in a hybrid dye-doped biopolymer and photochromic polymer system // Applied physics letters. — 2010. — Vol. 96. — P. 141106-1 — 141106-3


About this article

Authors: Lantuh Yu.D., Pashkevich S.N.

Year: 2012


Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

Crossref
Cyberleninka
Doi
Europeanlibrary
Googleacademy
scienceindex
worldcat
© Электронное периодическое издание: ВЕСТНИК ОГУ on-line (VESTNIK OSU on-line), ISSN on-line 1814-6465
Зарегистрировано в Федеральной службе по надзору в сфере связи, информационных технологий и массовых коммуникаций
Свидетельство о регистрации СМИ: Эл № ФС77-37678 от 29 сентября 2009 г.
Учредитель: Оренбургский государственный университет (ОГУ)
Главный редактор: С.А. Мирошников
Адрес редакции: 460018, г. Оренбург, проспект Победы, д. 13, к. 2335
Тел./факс: (3532)37-27-78 E-mail: vestnik@mail.osu.ru
1999–2024 © CIT OSU