M. A. Kol'chenko scite author profile

We study single dibenzoterrylene molecules in an anthracene single crystal at 1.4 K in two insertion sites at 785.1 and 794.3 nm. The single-molecule zero-phonon lines are narrow (about 30 MHz), intense (the detected fluorescence rates at saturation reach 100,000 counts s(-1)), and very photostable. The intersystem-crossing yield is extremely low (10(-7) or lower). All of these features are hallmarks of an excellent system for high-resolution spectroscopy and nanoscale probing at cryogenic temperatures.

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Single Dibenzoterrylene Molecules in an Anthracene Crystal: Main Insertion Sites

Nicolet

Bordat

Hofmann

et al. 2007

ChemPhysChem

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We present a spectroscopic study of the properties of the two principal insertion sites (at 785.1 and 794.3 nm) of single dibenzoterrylene molecules in anthracene single crystals at cryogenic temperatures. We measured the temperature dependence of the line width, the orientation of the transition dipole moments, and the Stark effect. We performed molecular dynamics simulations, which show that one dibenzoterrylene molecule preferably replaces three anthracene molecules. From simulated annealing, we derive the molecular conformations in the most stable insertion sites and the orientations of the transition dipole moments. The good agreement between the spectroscopic results and the simulations allows us to propose unambiguous structures for the two principal spectroscopic sites.

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Ultrahigh refractive index sensitivity of TE-polarized electromagnetic waves in graphene at the interface between two dielectric media

Kotov¹,

Kol'chenko²,

Lozovik³

2013

Opt. Express

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The behavior of the TE and TM electromagnetic waves in graphene at the interface between two semi-infinite dielectric media is studied. The dramatic influence on the TE waves propagation even at very small changes in the optical contrast between the two dielectric media is predicted. Frequencies of the TE waves are found to lie only in the window determined by the contrast. We consider this effect in connection with the design of graphene-based optical gas sensor. Near the frequency, where the imaginary part of the conductivity of graphene becomes zero, ultrahigh refractive index sensitivity and very low detection limit are revealed. The considered graphene-based optical gas sensor outperforms characteristics of modern volume refractive index sensors by several orders of magnitude.

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Photon echoes in doped organic amorphous systems over a wide (0.35–50K) temperature range

Vainer

Kol'chenko

Naumov

et al. 2000

Journal of Luminescence

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Towards nanoprobes for conduction in molecular crystals: Dibenzoterrylene in anthracene crystals

et al. 2005

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M. A. Kol'chenko

Single Dibenzoterrylene Molecules in an Anthracene Crystal: Spectroscopy and Photophysics

Single Dibenzoterrylene Molecules in an Anthracene Crystal: Main Insertion Sites

Ultrahigh refractive index sensitivity of TE-polarized electromagnetic waves in graphene at the interface between two dielectric media

Photon echoes in doped organic amorphous systems over a wide (0.35–50K) temperature range

Towards nanoprobes for conduction in molecular crystals: Dibenzoterrylene in anthracene crystals

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