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Octave-spanning emission across the visible spectrum from single crystalline 1,3,5,7-tetrakis-(p-methoxyphenyl)adamantane
Sustainable efficient light emitters based solely on elements-of-hope are needed to replace current compounds based on less-abundant materials. Functionalized diamondoids are a potential solution for this challenge, as a prototypical example offers efficient, octave-spanning emission across the visi...
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Published in: | Optical materials express 2022-09, Vol.12 (9), p.3517 |
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container_title | Optical materials express |
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creator | Müller, Marius J. Ziese, Ferdinand Belz, Jürgen Hüppe, Franziska Gowrisankar, Saravanan Bernhardt, Bastian Schwan, Sebastian Mollenhauer, Doreen Schreiner, Peter R. Volz, Kerstin Sanna, Simone Chatterjee, Sangam |
description | Sustainable efficient light emitters based solely on elements-of-hope are needed to replace current compounds based on less-abundant materials. Functionalized diamondoids are a potential solution for this challenge, as a prototypical example offers efficient, octave-spanning emission across the visible spectrum in their single-crystalline form. Its large quantum efficiency increases towards higher-than-ambient temperatures to beyond 7%. The stability beyond 200 °C renders such functionalized diamondoids as sustainable phosphors for LED applications. Detailed structural and theoretical investigations suggest a crucial role of exciton states accompanied by structural modifications (self-trapped excitons) in the emission process. |
doi_str_mv | 10.1364/OME.461427 |
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subjects | Crystal structure Crystallinity Diamonds Emission Emitters Excitons Phosphors Quantum efficiency Single crystals Visible spectrum |
title | Octave-spanning emission across the visible spectrum from single crystalline 1,3,5,7-tetrakis-(p-methoxyphenyl)adamantane |
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