Oriented Covalent Organic Framework Film Synthesis from Azomethine Compounds

Ly D. Tran; Brian J. Ree; Aleksey Ruditskiy; Lucas K. Beagle; Ryan C. Selhorst; Biddut K. Sarker; Dayanni D. Bhagwandin; Paige Miesle; Lawrence F. Drummy; Michael F. Durstock; Rahul Rao; Hilmar Koerner; Nicholas R. Glavin; Luke A. Baldwin

doi:10.1002/admi.202300042

Advanced Materials Interfaces (May 2023)

Oriented Covalent Organic Framework Film Synthesis from Azomethine Compounds

Ly D. Tran,
Brian J. Ree,
Aleksey Ruditskiy,
Lucas K. Beagle,
Ryan C. Selhorst,
Biddut K. Sarker,
Dayanni D. Bhagwandin,
Paige Miesle,
Lawrence F. Drummy,
Michael F. Durstock,
Rahul Rao,
Hilmar Koerner,
Nicholas R. Glavin,
Luke A. Baldwin

Affiliations

Ly D. Tran: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Brian J. Ree: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Aleksey Ruditskiy: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Lucas K. Beagle: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Ryan C. Selhorst: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Biddut K. Sarker: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Dayanni D. Bhagwandin: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Paige Miesle: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Lawrence F. Drummy: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Michael F. Durstock: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Rahul Rao: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Hilmar Koerner: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Nicholas R. Glavin: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA
Luke A. Baldwin: Materials and Manufacturing Directorate Air Force Research Laboratory Wright‐Patterson AFB OH 45433 USA

DOI: https://doi.org/10.1002/admi.202300042
Journal volume & issue: Vol. 10, no. 13
pp. n/a – n/a

Abstract

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Abstract Strategies enabling solution processing of covalent organic framework (COF) thin films will become increasingly important as these versatile materials are integrated into a wide range of electronic and optical devices. This work highlights an approach to yield thin film synthesis of TAPA‐PDA (TAPA: tris(4‐aminophenyl)amine, PDA: terephthalaldehyde) and TAPB‐PDA (TAPB: 1,3,5‐tris(4‐aminophenyl)benzene) imine COFs using azomethine compounds which can be drop cast onto a variety of substrates. High crystalline COF films are shown to form on various electronically‐relevant substrates. Grazing incidence wide angle X‐ray scattering characterization reveals COF films with a preferred horizontal orientation in the case of TAPA‐PDA COF and a more mixed/vertical orientation in the TAPB‐PDA COF film regardless of the substrate. As this exciting class of crystalline organic materials becomes more relevant for various device applications, solution processing techniques will be vital to take advantage of the properties of thin film COFs.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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