1329676-52-9Relevant articles and documents
Rational Design of a Near-infrared Fluorescence Probe for Ca2+ Based on Phosphorus-substituted Rhodamines Utilizing Photoinduced Electron Transfer
Takahashi, Shodai,Hanaoka, Kenjiro,Okubo, Yohei,Echizen, Honami,Ikeno, Takayuki,Komatsu, Toru,Ueno, Tasuku,Hirose, Kenzo,Iino, Masamitsu,Nagano, Tetsuo,Urano, Yasuteru
supporting information, p. 524 - 530 (2020/02/05)
Fluorescence imaging in the near-infrared (NIR) region (650–900 nm) is useful for bioimaging because background autofluorescence is low and tissue penetration is high in this range. In addition, NIR fluorescence is useful as a complementary color window t
Development of a far-red to near-infrared fluorescence probe for calcium ion and its application to multicolor neuronal imaging
Egawa, Takahiro,Hanaoka, Kenjiro,Koide, Yuichiro,Ujita, Sakiko,Takahashi, Naoya,Ikegaya, Yuji,Matsuki, Norio,Terai, Takuya,Ueno, Tasuku,Komatsu, Toru,Nagano, Tetsuo
supporting information; experimental part, p. 14157 - 14159 (2011/10/17)
To improve optical imaging of Ca2+ and to make available a distinct color window for multicolor imaging, we designed and synthesized CaSiR-1, a far-red to near-infrared fluorescence probe for Ca2+, using Si-rhodamine (SiR) as the flu