Add to ORKGA general approach to enhancing the photoluminescent quantum yield for a series of organic chromophores is presented. By bridging a chromophore symmetrically about a sulfur atom it was found that the photoluminescence could be systematically increased by oxidizing the bridge. Furthermore, the enhanced quantum yields were achieved without diminishing the solubility of these chromophores in common organic solvents. The photophysical characterization, as well as potential applications of these molecules will be discussed
A series of symmetric sulfone-linked organic fluorescent compounds (1a–c) was synthesized and ...
Among linear -conjugated organic molecules displaying strong second order nonlinear optical (NLO) an...
Fluorescent probes have continually been an important field of study and are widely used across many...
A general approach to enhancing the emission quantum yield of several widely studied organic chromop...
*S Supporting Information ABSTRACT: A general approach to enhancing the emission quantum yield of se...
Controlling both energy and electron transfer processes is necessary for the performance of both lig...
Covalently tethered bichromophores provide an ideal proving ground to develop strategies for control...
Pure light-atom organic phosphorescent molecules have been under scientific scrutiny because they ar...
International audiencePure light-atoms organic phosphorescent molecules have been under scientific s...
International audienceIn this study we investigate in detail the photophysics of naphthalene dimers ...
Photoswitchable fluorescent diheteroarylethenes are promising candidates for applications in super-r...
Sulfur oxidation state is used to tune organic room temperature phosphorescence (RTP) of symmetric s...
Sulfur oxidation state is used to tune organic room temperature phosphorescence (RTP) of symmetric s...
Symmetric dimers have the potential to optimize energy transfer and charge separation in optoelectro...
The 366 nm photolysis of 2,3,4a,6,7,8a-hexamethyl-4aβ,5,8,8aβ-tetrahydro-l,4-naphthoquinone (27) in ...
A series of symmetric sulfone-linked organic fluorescent compounds (1a–c) was synthesized and ...
Among linear -conjugated organic molecules displaying strong second order nonlinear optical (NLO) an...
Fluorescent probes have continually been an important field of study and are widely used across many...
A general approach to enhancing the emission quantum yield of several widely studied organic chromop...
*S Supporting Information ABSTRACT: A general approach to enhancing the emission quantum yield of se...
Controlling both energy and electron transfer processes is necessary for the performance of both lig...
Covalently tethered bichromophores provide an ideal proving ground to develop strategies for control...
Pure light-atom organic phosphorescent molecules have been under scientific scrutiny because they ar...
International audiencePure light-atoms organic phosphorescent molecules have been under scientific s...
International audienceIn this study we investigate in detail the photophysics of naphthalene dimers ...
Photoswitchable fluorescent diheteroarylethenes are promising candidates for applications in super-r...
Sulfur oxidation state is used to tune organic room temperature phosphorescence (RTP) of symmetric s...
Sulfur oxidation state is used to tune organic room temperature phosphorescence (RTP) of symmetric s...
Symmetric dimers have the potential to optimize energy transfer and charge separation in optoelectro...
The 366 nm photolysis of 2,3,4a,6,7,8a-hexamethyl-4aβ,5,8,8aβ-tetrahydro-l,4-naphthoquinone (27) in ...
A series of symmetric sulfone-linked organic fluorescent compounds (1a–c) was synthesized and ...
Among linear -conjugated organic molecules displaying strong second order nonlinear optical (NLO) an...
Fluorescent probes have continually been an important field of study and are widely used across many...