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Magnetic Control of Recombination Fluorescence and Tunability by Modulation of Radical Pair Energies in Rigid Donor–Bridge–Acceptor Systems

Jason T. Buck, Tomoyasu Mani

2020Journal of the American Chemical Society23 citationsDOI

Abstract

Magnetic control of molecular emission holds the promise of developing new magneto-optical technologies. Spin dynamics of radical pairs can serve as a basis of control of chemical reactions by weak magnetic fields (<1 T) orders of magnitude smaller than the thermal energy kBT at room temperature. Here we demonstrate control of recombination fluorescence, produced by charge recombination of photogenerated radical pairs, by weak magnetic fields in rigid donor–bridge–acceptor molecules excited with visible light. We can tune the field response range by chemically modulating the energies of the radical pairs affecting exchange interactions. Our results present a new strategy for designing magneto-optical probes for imaging and other molecular spin technology applications.

Topics & Concepts

ChemistryFluorescenceAcceptorModulation (music)Bridge (graph theory)RecombinationPhotochemistryCondensed matter physicsOpticsBiochemistryInternal medicinePhysicsMedicinePhilosophyAestheticsGeneLanthanide and Transition Metal ComplexesPhotoreceptor and optogenetics researchElectron Spin Resonance Studies
Magnetic Control of Recombination Fluorescence and Tunability by Modulation of Radical Pair Energies in Rigid Donor–Bridge–Acceptor Systems | Litcius