Game of Crowns: Na + Is Coming! Red NIR-Emissive Hybrid Liquid Crystals Containing Discotic Crown Ethers and Na 2 Mo 6 X 8 i Cl 6 (X i = Cl or Br)

• Published in: ACS applied materials & interfaces Vol. 15; no. 33; pp. 39752 - 39764
• Main Authors: Carrasco, Irene, Ehni, Philipp, Ebert, Max, Dumait, Noée, Taupier, Gregory, Amela-Cortes, Maria, Roiland, Claire, Cordier, Stéphane, Knöller, Julius A, Jacques, Emmanuel, Laschat, Sabine, Molard, Yann
• Format: Journal Article
• Language: English
• Published: United States 23.08.2023
• Subjects: hybrid material; luminescence; liquid crystals; metal clusters; charge transport
• ISSN: 1944-8244; 1944-8252
• DOI: 10.1021/acsami.3c08441

Molecular or supramolecular materials that can self-organize into columns such as discotic liquid crystals are of interest for several applications in the field of optoelectronics. We show in this work that red near-infrared (NIR)-emissive metal cluster compounds of general formula Na Mo X Cl (X = Cl or Br) can be readily complexed with discotic liquid crystals containing a crown ether. Three cavity sizes have been tested with crown ethers bearing 4, 5, or 6 oxygen atoms. In all cases, 1:1 complexes were formed, thanks to the well-known supramolecular interactions existing between the Na cations of the metal cluster salt and the crown ether derivatives. All obtained hybrids are homogeneous, emit in the red NIR region, and show liquid crystalline properties on a wider temperature range than their precursors. Charge transport properties have been investigated by using a space charge limited current device. Obtained results demonstrate that metal cluster compounds can enhance the charge carrier mobility by 5 orders of magnitude compared to the native discotic organic ligands. Considering that the presented organic crown ether derivatives are not the best candidates to design optoelectronic devices because of their inherently low conductivity, but that similar compounds were developed to design proton conductive porous framework, our results open promising perspectives for the use of metal cluster compounds in devices dedicated to such a field.