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Exceptional Flame Resistance and Gas Barrier with Thick Multilayer Nanobrick Wall Thin Films
Author(s) -
Guin Tyler,
Krecker Michelle,
Milhorn Aaron,
Hagen David A.,
Stevens Bart,
Grunlan Jaime C.
Publication year - 2015
Publication title -
advanced materials interfaces
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.671
H-Index - 65
ISSN - 2196-7350
DOI - 10.1002/admi.201500214
Subject(s) - materials science , nanocomposite , thin film , montmorillonite , layer by layer , layer (electronics) , chemical engineering , amine gas treating , deposition (geology) , polyelectrolyte , cationic polymerization , composite material , nanotechnology , polymer chemistry , polymer , organic chemistry , chemistry , paleontology , sediment , engineering , biology
Layer‐by‐layer (LbL) assembly is a powerful and versatile technique to deposit functional thin films, but often requires a large number of deposition steps to achieve a film thick enough to provide a desired property. By incorporating amine salts into the cationic polyelectrolyte and its associated rinse, LbL clay‐containing nanocomposite films can achieve much greater thickness (>1 μm) with relatively few deposition cycles (≤6 bilayers). Amine salts interact with nanoclays, causing nanoplatelets to deposit in stacks rather than as individual platelets. This technique appears to be universal, exhibiting thick growth with multiple types of nanoclay, including montmorillonite and vermiculite (VMT), and a variety of amine salts (e.g., hexylamine and diethanolamine). The characteristic order found in LbL‐assembled films is maintained despite the incredible thickness. Films assembled in this manner achieve oxygen transmission rates below 0.009 cc m −2 d −1 atm −1 with just 6 bilayers (BLs) of chitosan/VMT deposited. These thick clay‐based thin films also impart exceptional flame resistance. A 2‐BL film renders a 3.2 mm polystyrene plate self‐extinguishing, while an 8‐BL film (3.9 μm thick) prevents ignition entirely. This ability to generate much thicker clay‐based multilayers with amine salts opens up tremendous potential for these nanocoatings in real world applications.

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