Add to ORKGA redox-interconverting molecular switch is reported that enables continuous thermal amplification of its fluorescence, thus mimicking the response of transistors. Although the quantum nature of molecules makes them specially suitable for mimicking the operation of digital electronic elements, molecular compounds can also be envisioned to emulate the behavior of analog devices. In this work we report a novel fluorescent three-state switch capable of reproducing the analog response of transistors, an ubiquitous device in modern electronics. Exploiting the redox and thermal sensitivity of this compound, the amplitude of its fluorescence emission can be continuously modulated, in a similar way as the output current in a transistor is amplified...
Photochromes are chromophores that are reversibly isomerized between two metastable forms using ligh...
Recent improvements in the performance of solution-processed semiconductor materials and optoelectro...
We investigate the possibility of optical current control through single molecules which are weakly ...
Incorporating molecular switches as the active components in nanoscale electrical devices represents...
The development of luminescent materials that are sensitive to both optical and electrical stimuli i...
The new redox-fluorescence dependent molecules MTs were synthesized with tetrathiafulvalene (TTF) an...
Nonlinear input-output relations are at the basis of the regulation of biochemical processes in livi...
Multiple stimuli-responsive fluorescent materials have gained increasing attention for their fundame...
Certain molecular switches respond to input stimulations producing detectable outputs. The interplay...
The design, synthesis and operation of molecular-scale systems that exhibit controllable motions of ...
Multiple stimuli-responsive fluorescent materials have gained increasing attention for their fundame...
The progress of the design, synthesis, fluorescence properties and application of a new family of fl...
© 2022 Wiley-VCH GmbH.Recent improvements in the performance of solution-processed semiconductor mat...
The tunable excited-state properties of a new donor–π-acceptor–π-donor-type fluorophore 1 with a bip...
Regulating energy transfer pathways through materials is a central goal of nanotechnology, as a grea...
Photochromes are chromophores that are reversibly isomerized between two metastable forms using ligh...
Recent improvements in the performance of solution-processed semiconductor materials and optoelectro...
We investigate the possibility of optical current control through single molecules which are weakly ...
Incorporating molecular switches as the active components in nanoscale electrical devices represents...
The development of luminescent materials that are sensitive to both optical and electrical stimuli i...
The new redox-fluorescence dependent molecules MTs were synthesized with tetrathiafulvalene (TTF) an...
Nonlinear input-output relations are at the basis of the regulation of biochemical processes in livi...
Multiple stimuli-responsive fluorescent materials have gained increasing attention for their fundame...
Certain molecular switches respond to input stimulations producing detectable outputs. The interplay...
The design, synthesis and operation of molecular-scale systems that exhibit controllable motions of ...
Multiple stimuli-responsive fluorescent materials have gained increasing attention for their fundame...
The progress of the design, synthesis, fluorescence properties and application of a new family of fl...
© 2022 Wiley-VCH GmbH.Recent improvements in the performance of solution-processed semiconductor mat...
The tunable excited-state properties of a new donor–π-acceptor–π-donor-type fluorophore 1 with a bip...
Regulating energy transfer pathways through materials is a central goal of nanotechnology, as a grea...
Photochromes are chromophores that are reversibly isomerized between two metastable forms using ligh...
Recent improvements in the performance of solution-processed semiconductor materials and optoelectro...
We investigate the possibility of optical current control through single molecules which are weakly ...