Biorenewable Polyelectrolyte Nanocoating for Flame-Retardant Cotton-Based Paper

Danixa Rodriguez-Melendez; Matthias Langhansl; Alexander Helmbrecht; Bethany Palen; Cordt Zollfrank; Jaime C. Grunlan

doi:10.1021/acsomega.2c04194

Biorenewable Polyelectrolyte Nanocoating for Flame-Retardant Cotton-Based Paper

Danixa Rodriguez-Melendez
, Matthias Langhansl
, Alexander Helmbrecht
, Bethany Palen
, Cordt Zollfrank
, Jaime C. Grunlan

Lehrstuhl für Biogene Polymere

Texas A and M University
Technische Universität München
Texas A and M University

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

7 Zitate (Scopus)

Abstract

Cotton-based raw paper, made of 100% cellulose, is used to make humidity-sensing, cottonid for bio-architecture applications. Despite its renewability and excellent mechanical properties, it is inherently flammable. In an effort to reduce its flammability, thin films of fully renewable and environmentally benign polyelectrolytes, chitosan (CH) and phytic acid (PA), were deposited on raw paper via layer-by-layer (LbL) assembly. Only four bilayers (BL) of the CH/PA coating are required to achieve self-extinguishing behavior, with a 69% reduction in peak heat release rate measured by microscale combustion calorimetry. These results demonstrate that this renewable intumescent LbL-assembled film provides an effective flame-retardant treatment for these environmentally friendly, climate-adaptive construction materials and could potentially be used to protect many cellulosic materials.

Originalsprache	Englisch
Seiten (von - bis)	32599-32603
Seitenumfang	5
Fachzeitschrift	ACS Omega
Jahrgang	7
Ausgabenummer	36
DOIs	https://doi.org/10.1021/acsomega.2c04194
Publikationsstatus	Veröffentlicht - 13 Sept. 2022

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title = "Biorenewable Polyelectrolyte Nanocoating for Flame-Retardant Cotton-Based Paper",

abstract = "Cotton-based raw paper, made of 100\% cellulose, is used to make humidity-sensing, cottonid for bio-architecture applications. Despite its renewability and excellent mechanical properties, it is inherently flammable. In an effort to reduce its flammability, thin films of fully renewable and environmentally benign polyelectrolytes, chitosan (CH) and phytic acid (PA), were deposited on raw paper via layer-by-layer (LbL) assembly. Only four bilayers (BL) of the CH/PA coating are required to achieve self-extinguishing behavior, with a 69\% reduction in peak heat release rate measured by microscale combustion calorimetry. These results demonstrate that this renewable intumescent LbL-assembled film provides an effective flame-retardant treatment for these environmentally friendly, climate-adaptive construction materials and could potentially be used to protect many cellulosic materials.",

author = "Danixa Rodriguez-Melendez and Matthias Langhansl and Alexander Helmbrecht and Bethany Palen and Cordt Zollfrank and Grunlan, \{Jaime C.\}",

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AU - Rodriguez-Melendez, Danixa

AU - Langhansl, Matthias

AU - Helmbrecht, Alexander

AU - Palen, Bethany

AU - Zollfrank, Cordt

AU - Grunlan, Jaime C.

PY - 2022/9/13

Y1 - 2022/9/13

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AB - Cotton-based raw paper, made of 100% cellulose, is used to make humidity-sensing, cottonid for bio-architecture applications. Despite its renewability and excellent mechanical properties, it is inherently flammable. In an effort to reduce its flammability, thin films of fully renewable and environmentally benign polyelectrolytes, chitosan (CH) and phytic acid (PA), were deposited on raw paper via layer-by-layer (LbL) assembly. Only four bilayers (BL) of the CH/PA coating are required to achieve self-extinguishing behavior, with a 69% reduction in peak heat release rate measured by microscale combustion calorimetry. These results demonstrate that this renewable intumescent LbL-assembled film provides an effective flame-retardant treatment for these environmentally friendly, climate-adaptive construction materials and could potentially be used to protect many cellulosic materials.

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Biorenewable Polyelectrolyte Nanocoating for Flame-Retardant Cotton-Based Paper

Abstract

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