Photonic engineering of hybrid metal-organic chromophores

Micka\"el P. Busson; Brice Rolly; Brian Stout; Nicolas Bonod,; J\'er\^ome Wenger; and S\'ebastien Bidault

arXiv:1210.6790·physics.optics·October 26, 2012

Photonic engineering of hybrid metal-organic chromophores

Micka\"el P. Busson, Brice Rolly, Brian Stout, Nicolas Bonod,, J\'er\^ome Wenger, and S\'ebastien Bidault

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TL;DR

This paper demonstrates how photonic antennas can be used to control the optical properties of hybrid metal-organic chromophores, leading to novel water-soluble emitters with unique photophysical characteristics.

Contribution

It introduces a new method for photonic engineering of hybrid metal-organic chromophores, enabling control over their absorption and emission properties.

Findings

01

Water-soluble chromophores with high brightness

02

Shorter lifetime and low quantum yield achieved

03

Photonic antennas effectively modify emission properties

Abstract

We experimentally demonstrate control of the absorption and emission properties of individual emitters by photonic antennas in suspension. The method results in a new class of water-soluble chromophores with unprecedented photophysical properties, such as short lifetime, low quantum yield but high brightness.

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