Tailoring Phospholes for Imprint of Fluorescent 3D Structures

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Tailoring Phospholes for Imprint of Fluorescent 3D Structures

PMMA based polymer blends have been infused with luminescent phospholes and have been structured via nanoimprint. While symmetrically substituted phospholes are prone to crystallization and phase separation, structural modification of the phosphole backbone in the α‐ and β‐positions has been explored, which prevents these issues; a structural explanation for this is suggested. Best phase integrity has been obtained for β‐silyl‐substituted phospholes, which were implemented in thin films and beads. The emission wavelengths of the phospholes are shifted bathochromically in the polymer matrix as compared to the neat compounds featuring emission bands near 500 nm. This enables tracking of the fluorescent beads using standard fluorescence microscopy.

Keywords

540 'Chemistry and allied sciences'

Files

Roesler_et_al_2019_European_Journal_of_Inorganic_Chemistry.pdf (1.17 MB)

Sponsor

Gefördert im Rahmen des Projekts DEAL

Citation

In: European journal of inorganic chemistry (EurJIC) Volume 2019 / Issue 45 (2019-11-06) , S. 4820-4825; ISSN 1099-0682

URI

doi:10.17170/kobra-20200117935 ⎘

doi:10.1002/ejic.201900742 ⎘

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Artikel

@article{doi:10.17170/kobra-20200117935,
  author    ={Roesler, Fabian and Kaban, Burhan and Klintuch, Dieter and Ha, Uh-Myong and Bruhn, Clemens and Hillmer, Hartmut and Pietschnig, Rudolf},
  title    ={Tailoring Phospholes for Imprint of Fluorescent 3D Structures},
  copyright  ={https://rightsstatements.org/page/InC/1.0/},
  language ={en},
  journal  ={European journal of inorganic chemistry (EurJIC)},
  year   ={2019-11-06}
}

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