Kavita Rani scite author profile

Recently developed C10‐(H)‐arylated‐N‐(pyren‐1yl)‐picolinamide compounds have been investigated spectroscopically for their photophysical properties and metal ion sensing abilities. Two sets of regioisomers were selected based on their molar absorptivities and fluorescence quantum yields and classified into two series I methoxy group at meta‐ and para‐ position of phenyl ring, and series II methyl group at meta‐ and para‐ position of phenyl ring. Additionally, for better understanding on structure‐property relationship, a comparison study with C‐10 unsubstituted compound was also conducted. All compounds exhibited characteristic absorption and emission responses only towards Cu2+ and Fe3+ ions among all the screened metals. While the reference compound and those with methoxy substituent displayed a fluorescence turn‐off behaviour, compounds with methyl groups showed fluorescence turn‐on response through excimer formation at ∼550 nm in the presence of Cu2+ and Fe3+. Sensing studies were performed to elucidate structure‐property relationship and to obtain limits of detection, binding constants and fluorescence quenching constants. Temperature‐dependent fluorescence studies were performed to distinguish the type of excimers produced by two compounds in series II with the metal ions.

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ChemInform Abstract: Photooxidative Set‐Initiated N‐Demethylation of N,N′‐Dimethylanilines (I): Mimicking the Cytochrome P‐450 Type Oxygenations.

Pandey

Rani

Bhalerao

1990

ChemInform

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Kavita Rani

Efficient electron transporting and panchromatic absorbing FRET cassettes based on aza-BODIPY and perylenediimide towards multiple metal FRET-Off sensing and ratiometric temperature sensing

Direct carbon-carbon bond formation strategy at α-position of tertiary amines by photoinduced electron transfer (PET) processes

Multi-stimuli programmable FRET based RGB absorbing antennae towards ratiometric temperature, pH and multiple metal ion sensing

Photooxidative set initiated N-demethylation of N,N'-dimethylanlines: Mimicking the cytochrome P-450 type oxygenations

Unravelling the excited state dynamics of monofunctionalized mono- and distyryl-BODIPY and perylenediimide dyads

Photosensitized single electron transfer initiated N-debenzylation. A convenient and mild approach

Structure‐Property Correlation of C10‐(H)‐Arylated‐N‐(pyren‐1‐yl)‐picolinamide Regioisomers towards Cu²⁺ and Fe³⁺ Sensing

ChemInform Abstract: Photooxidative Set‐Initiated N‐Demethylation of N,N′‐Dimethylanilines (I): Mimicking the Cytochrome P‐450 Type Oxygenations.

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Kavita Rani

Efficient electron transporting and panchromatic absorbing FRET cassettes based on aza-BODIPY and perylenediimide towards multiple metal FRET-Off sensing and ratiometric temperature sensing

Direct carbon-carbon bond formation strategy at α-position of tertiary amines by photoinduced electron transfer (PET) processes

Multi-stimuli programmable FRET based RGB absorbing antennae towards ratiometric temperature, pH and multiple metal ion sensing

Photooxidative set initiated N-demethylation of N,N'-dimethylanlines: Mimicking the cytochrome P-450 type oxygenations

Unravelling the excited state dynamics of monofunctionalized mono- and distyryl-BODIPY and perylenediimide dyads

Photosensitized single electron transfer initiated N-debenzylation. A convenient and mild approach

Structure‐Property Correlation of C10‐(H)‐Arylated‐N‐(pyren‐1‐yl)‐picolinamide Regioisomers towards Cu2+ and Fe3+ Sensing

ChemInform Abstract: Photooxidative Set‐Initiated N‐Demethylation of N,N′‐Dimethylanilines (I): Mimicking the Cytochrome P‐450 Type Oxygenations.

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Structure‐Property Correlation of C10‐(H)‐Arylated‐N‐(pyren‐1‐yl)‐picolinamide Regioisomers towards Cu²⁺ and Fe³⁺ Sensing