24136-79-6Relevant academic research and scientific papers
Unexpected effect of iodine atoms in heptamethine cyanine dyes on the photodynamic eradication of Gram-positive and Gram-negative pathogens
Gellerman, Gary,Kobzev, Dmytro,Kolosova, Olga,Nakonechny, Faina,Patsenker, Leonid,Semenova, Olga,Tatarets, Anatoliy,Yazbak, Fares
, (2021/09/01)
The introduction of heavy atoms such as iodine into organic dye molecules is known to improve the efficacy of photodynamic therapy (PDT) in general and antimicrobial photodynamic therapy (APDT) in particular. Such a phenomenon is attributed to the increas
Cyanine compound for labeling biomolecule and preparation method thereof
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Page/Page column 46; 47, (2014/05/25)
Disclosed are a novel cyanine compound, represented by the following Formula 1, for labeling biomolecules, and a method for preparing the same. wherein R1, R2, R3, R4, B, m and n are defined as above.
Encapsulated energy-transfer cassettes with extremely well resolved fluorescent outputs
Ueno, Yuichiro,Jose, Jiney,Loudet, Aurore,Perez-Bolivar, Cesar,Anzenbacher, Pavel,Burgess, Kevin
, p. 51 - 55 (2011/03/17)
This paper concerns the development of water-compatible fluorescent imaging probes with tunable photonic properties that can be excited at a single wavelength. Bichromophoric cassettes 1a-1c consisting of a BODIPY donor and a cyanine acceptor were prepare
Catch and release microwave mediated synthesis of cyanine dyes
Lopalco, Maria,Koini, Eftychia N.,Cho, Jin Ku,Bradley, Mark
supporting information; experimental part, p. 856 - 859 (2009/05/30)
Unsymmetrical functionalised cyanine dyes, covering the whole colour range, were readily synthesised (in 100 mg amounts) by a combination of microwave and solid-phase methodologies.
Radioactivity-synchronized fluorescence enhancement using a radionuclide fluorescence-quenched dye
Berezin, Mikhail Y.,Guo, Kevin,Teng, Bao,Edwards, W. Barry,Anderson, Carolyn J.,Vasalatiy, Olga,Gandjbakhche, Amir,Griffiths, Gary L.,Achilefu, Samuel
supporting information; experimental part, p. 9198 - 9200 (2009/12/05)
(Chemical Equation Presented) We demonstrate the first evidence of radioactivity-synchronized fluorescence quenching of a near-infrared light-emitting dye by a radionuclide, 64Cu, and subsequent fluorescence enhancement upon 64Cu decay to the daughter isotopes 64Ni and 64Zn. The dynamic switch from high radioactivity and low fluorescence to low radioactivity and high fluorescence is potentially useful for developing complementary multimodal imaging and detection platforms for chemical, environmental, and biomedical applications as well as for unraveling the mechanisms of metal-induced dynamic fluorescence changes.
