Lyotropic 'hairy' TiO2 nanorods

Fei Cheng, Emanuele Verrelli, Fahad A. Alharthi, Stephen M. Kelly, Mary O'Neill, Neil T. Kemp, Stuart P. Kitney, Khue T. Lai, Georg H. Mehl, Thomas D. Anthopoulos

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

We report the synthesis of the first stable, solution-processable and photocrosslinkable hybrid organic/inorganic titanium dioxide nanorods as 'hairy rods' coated with phosphonate ligands with photoreactive coumarin groups located in a terminal position. The relationships between the chemical structure of the diethyl-ω-[(7-oxycoumaryl)-n-alkyl]phosphonate ligands on the ligand exchange rate (LER) and the solubility of the resultant ligand-stabilized titanium dioxide nanorods in organic solvents are elucidated. These TiO2 nanorods, with an organic ligand coating, are short enough (aspect ratio = 5-8) to be dissolved in chlorobenzene at high concentrations, but long enough to form lyotropic nematic liquid crystals. These colloidal solutions are used to deposit a thin, uniform layer of hybrid organic/inorganic TiO2 nanorods with their long axes in the plane of a flat, smooth substrate through a self-organization process. Standard photolithographic patterning creates an insoluble dielectric layer of the desired thickness, smoothness and uniformity and with a dielectric constant of sufficient magnitude, k = 8, suitable for the fabrication of multilayer, plastic electronic devices using solution-based fabrication techniques, such as ink-jet printing, used in roll-to-roll manufacturing.
Original languageEnglish (US)
Pages (from-to)254-264
Number of pages11
JournalNanoscale Advances
Volume1
Issue number1
DOIs
StatePublished - 2019

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: The research leading to these results has received funding from the EPSRC under the Grant Agreement Number EP/J001597/1. Mrs A Lowry, Mrs C Kennedy and Dr R Knight are thanked for providing TEM, CHN and ICP analyses, respectively. Professor S. K. Haywood and Dr S. I. Rybchenko are thanked for providing access to the Bruker FTIR spectrometer for thin film transmission measurements

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