English

Tunable colloidal photonic crystals

Optics 2018-08-23 v2 Applied Physics

Abstract

Spherical colloids arranged in a crystalline order are known to produce structural colors. The intensity and brilliance of such photonic crystals require high size-monodispersity of the colloids, a low number of lattice defects and disorder, as well as a relatively large refractive index contrast between the scattering colloids and the continuous background. Here we present the unexpected photonic properties of aqueous suspensions of charge-stabilized, 186 nm large, fluorinated colloids with a refractive index of 1.37. Employing reflectivity, optical observation, small angle x-ray scattering measurements and reflectivity modeling, we demonstrate that these suspensions become partially transparent while showing strong, almost angle-independent color in reflection despite the very small refractive index difference. Under certain conditions, additional sharp Bragg reflections are observed. We were able to tune the observed structural colors continuously across the entire visible range by simply changing the volume fraction of these colloidal suspensions, which show a white appearance when dilute, structural color and Bragg peaks when concentrated enough to form Wiegner crystal, and angle-independent color when very concentrated and in a glassy phase.

Keywords

Cite

@article{arxiv.1808.06260,
  title  = {Tunable colloidal photonic crystals},
  author = {Talha Erdem and Mykolas Zupkauskas and Thomas ONeill and Alessio Caciagli and Peicheng Xu and Yang Lan and Peter Boesecke and Erika Eiser},
  journal= {arXiv preprint arXiv:1808.06260},
  year   = {2018}
}
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