Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/104949
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Type: Journal article
Title: Graphene-borate as an efficient fire retardant for cellulosic materials with multiple and synergetic modes of action
Author: Nine, M.
Tran, D.
Tung, T.
Kabiri, S.
Losic, D.
Citation: ACS Applied Materials and Interfaces, 2017; 9(11):10160-10168
Publisher: American Chemical Society
Issue Date: 2017
ISSN: 1944-8244
1944-8252
Statement of
Responsibility: 
Md J. Nine, Diana N. H. Tran, Tran Thanh Tung, Shervin Kabiri and Dusan Losic
Abstract: To address high fire risks of flamable cellulosic materials, that can trigger easy combustion, flame propagation, and release of toxic gases, we report a new fire-retardant approach using synergetic actions combining unique properties of reduced graphene oxide (rGO) and hydrated-sodium metaborates (SMB). The single-step treatment of cellulosic materials by a composite suspension of rGO/SMB was developed to create a barrier layer on sawdust surface providing highly effective fire retardant protection with multiple modes of action. These performances are designed considering synergy between properties of hydrated-SMB crystals working as chemical heat-sink to slow down the thermal degradation of the cellulosic particles and gas impermeable rGO layers that prevents access of oxygen and the release of toxic volatiles. The rGO outer layer also creates a thermal and physical barrier by donating carbon between the flame and unburnt wood particles. The fire-retardant performance of developed graphene-borate composite and mechanism of fire protection are demonstrated by testing of different forms of cellulosic materials such as pine sawdust, particle-board, and fiber-based structures. Results revealed their outstanding self-extinguishing behavior with significant resistance to release of toxic and flammable volatiles suggesting rGO/SMB to be suitable alternative to the conventional toxic halogenated flame-retardant materials.
Keywords: borate; cellulosic materials; fire-retardants; graphene
Rights: Copyright © 2017 American Chemical Society
RMID: 0030066276
DOI: 10.1021/acsami.7b00572
Grant ID: http://purl.org/au-research/grants/arc/IH150100003
Appears in Collections:Chemical Engineering publications

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