2017
DOI: 10.1002/slct.201700891
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A Bis(Boronic Ester)-Based Fluorogenic and Chromogenic Sensor for F-and Cu2+

Abstract: In this work, we designed a new boronic ester based ditopic Schiff's base receptor, 2,2′‐(((1E,1′E)‐((2,4,8,10‐tetraoxa‐3,9‐diboraspiro[5.5]undecane‐3,9‐diyl)bis(4,1‐phenylene)) bis(me‐thanylylidene))bis(azanylylidene))diphenol (H2L)by condensing ortho‐aminophenol, 4‐formyl phenyl boronic acid and pentaerythritol. The receptor has been thoroughly characterized by 1H, 13C, 11B NMR spectroscopy as well as high resolution mass spectroscopy and by elemental analyses. Hydrolytic stability of the receptor was also c… Show more

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Cited by 8 publications
(6 citation statements)
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References 67 publications
(163 reference statements)
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“…Chemically, boron atom itself known to possess three valence electrons with a ground configuration as 1S 2 2S 2 2P 1 and an empty p orbital, which often behaves like a Lewis acid with intend to make bonding with electron‐rich substances and quenches boron's appetite for more electrons. Hence the boronic acid derivatives are more viable to behave as carbohydrate sensors and components in sugar‐permeable membranes ,. which are very prominent and conspicuous in the literature.…”
Section: Introductionsupporting
confidence: 74%
“…Chemically, boron atom itself known to possess three valence electrons with a ground configuration as 1S 2 2S 2 2P 1 and an empty p orbital, which often behaves like a Lewis acid with intend to make bonding with electron‐rich substances and quenches boron's appetite for more electrons. Hence the boronic acid derivatives are more viable to behave as carbohydrate sensors and components in sugar‐permeable membranes ,. which are very prominent and conspicuous in the literature.…”
Section: Introductionsupporting
confidence: 74%
“…Maity et al reported on new boronic ester sensor 60 that can be used for the detection of both Cu 2+ and F − ions. 121 The addition of F − results in a change in the absorption spectral distribution, which may be ascribed to the coordination of F atoms on the electron-poor boron atoms, resulting in a small blue shift of the lowest energy absorption band, and excessive F − induce the deprotonation of the phenolic O–H protons, resulting in a bright yellow color. The addition of Cu 2+ may result in the charge transfer transition of phenoxide-O to Cu 2+ in the resulting 2 : 1 complex to form a strong and beautiful yellow color.…”
Section: Ions Boronic Acid Sensors ( Table 7 )mentioning
confidence: 99%
“…Maity et al reported on new boronic ester sensor 60 that can be used for the detection of both Cu 2+ and F À ions. 121 The addition of F À results in a change in the absorption spectral distribution, which may be ascribed to the coordination of F atoms on the electron-poor boron atoms, resulting in a small blue shi of the lowest energy absorption band, and excessive in the resulting 2 : 1 complex to form a strong and beautiful yellow color. This sensor is capable of detecting both Cu 2+ and F À ions as a very rare example.…”
Section: Copper Ion Boronic Acid Sensorsmentioning
confidence: 99%
“…The imine-pyridine [22,64] or imine-phenol [65] moieties have been reported to act as chromophores for a variety of compounds since their photophysical properties can be modify by mean of metal-ligand interaction. Compounds 1a-1c showed an absorption band at 290 nm (Fig.…”
Section: Cation Sensing Studiesmentioning
confidence: 99%