Andie O'Connell

College of Engineering

Works (1)

Updated: June 15th, 2023 21:40

2021 article

Stretchable and Multi-Metal–Organic Framework Fabrics Via High-Yield Rapid Sorption-Vapor Synthesis and Their Application in Chemical Warfare Agent Hydrolysis

Morgan, S. E., O’Connell, A. M., Jansson, A., Peterson, G. W., Mahle, J. J., Eldred, T. B., … Parsons, G. N. (2021, June 25). ACS Applied Materials & Interfaces, Vol. 13, pp. 31279–31284.

By: S. Morgan n, A. O’Connell n, A. Jansson n, G. Peterson*, J. Mahle*, T. Eldred n, W. Gao n, G. Parsons n

author keywords: metal-organic frameworks; polymer composites; protective fabric; catalysis; scalable
topics (OpenAlex): Metal-Organic Frameworks: Synthesis and Applications; Energetic Materials and Combustion; MXene and MAX Phase Materials
TL;DR: A rapid, high-yield sorption-vapor method for direct simultaneous growth of single and multiple MOF materials onto untreated flexible and stretchable polymer fibers and films that enables rapid solid-state hydrolysis of the highly toxic chemical warfare agent soman and paraoxon-methyl simulant. (via Semantic Scholar)
Sources: Web Of Science, ORCID, NC State University Libraries
Added: July 26, 2021

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