1357307-23-3Relevant articles and documents
A class of wavelength-tunable near-infrared aza-BODIPY dyes and their application for sensing mercury ion
Liu, Shujuan,Shi, Zhengjian,Xu, Wenjuan,Yang, Huiran,Xi, Na,Liu, Xiangmei,Zhao, Qiang,Huang, Wei
, p. 145 - 153 (2014)
We present the design, synthesis, photophysical properties and application for sensing mercury ion, of a series of excellent near infrared fluorescent aza-boron-dipyrromethene (aza-BODIPY) dyes. The introduction of different aromatic substituents to the a
Synthesis of covalently bonded boron-dipyrromethene-diarylethene for building a stable photosensitizer with photo-controlled reversibility
Hu, Qiao-Ju,Lu, Yu-Chen,Yang, Cheng-Xiong,Yan, Xiu-Ping
, p. 5470 - 5473 (2016/05/09)
We report the synthesis and characterization of a photosensitizer containing boron-dipyrromethene and diarylethene. The photosensitizer has photo-controlled reversible photosensitivity and offers potential applications in photochemical catalysis and the d
Synthesis and Studies of Aza-BODIPY-Based π-Conjugates for Organic Electronic Applications
Khan, Tamanna K.,Sheokand, Preeti,Agarwal, Neeraj
, p. 1416 - 1422 (2015/10/05)
Aza-boron-dipyromethene (aza-BODIPY) derivatives 1-6 were synthesized for the first time by employing the palladium catalyzed Suzuki-Miyaura coupling on dibromo-aza-BODIPY. Photophysical and electrochemical properties of these compounds were studied in solution. Absorption and emission maxima were observed in the near-infrared (NIR) region and were found to extend up to 754 and 751 nm, respectively. NIR fluorescence quantum yields in chloroform were as high as 0.45. Optical band gaps were measured from the onset of absorption spectra in thin films and were found to be low (ca. 1.2-1.4 eV). Electrochemical studies provided insight into the reduction potentials of these compounds and consequently the electron affinity (EA). High electron affinity (ca. 4.5) was observed for these dyes. NIR absorption and emission, good quantum yield, and high electron affinity of these compounds promise their applications in microscope imaging and optoelectronic devices, mainly in solar cells and field-effect transistors.