비할로겐계 난연성 고분자용 탄소계 나노 첨가제의 용융 유황 응용

The excessive accumulation of sulfur from industrial processes poses a significant environmental challenge, contributing to acid rain, air pollution, and soil contamination. While managing this surplus sulfur is challenging, it has the potential to be repurposed into sustainable materials through pr...

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Published in	한국섬유공학회지 Vol. 61; no. 6; pp. 337 - 345
Main Authors	박훤, Hwon Park, 하재석, Jaeseok Ha, 남기호, Ki-ho Nam, 배진석, Jin-seok Bae
Format	Journal Article
Language	Korean
Published	한국섬유공학회 31.12.2024
Subjects	flame retardancy non-solvent phase separation porous polyimide sulfur-doped reduced graphene oxide waste sulfur 섬유공학
Online Access	Get full text
ISSN	1225-1089 2288-6419
DOI	10.12772/TSE.2024.61.337

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Abstract	The excessive accumulation of sulfur from industrial processes poses a significant environmental challenge, contributing to acid rain, air pollution, and soil contamination. While managing this surplus sulfur is challenging, it has the potential to be repurposed into sustainable materials through proper utilization. This study introduces a novel approach to sulfur management by employing elemental sulfur as a reducing agent to synthesize sulfur-doped reduced graphene oxide (S-rGO). The S-rGO was incorporated into a porous polyimide (PPI) matrix to create a high-performance composite with enhanced flame retardancy, thermal stability, and tailored porosity. Comprehensive characterization revealed that sulfur doping introduced structural defects, which contributed to the material's improved functional properties. Additionally, the porosity in the PPI/S-rGO composite, combined with varying filler contents, enhanced thermal stability, dynamic storage modulus, and flame retardancy. This work provides a sustainable solution for sulfur management and presents a multifunctional material suitable for applications in industries requiring flame-retardant, thermally stable, and porous polymers, such as semiconductor coatings and battery separators.
AbstractList	The excessive accumulation of sulfur from industrial processes poses a significant environmental challenge, contributing to acid rain, air pollution, and soil contamination. While managing this surplus sulfur is challenging, it has the potential to be repurposed into sustainable materials through proper utilization. This study introduces a novel approach to sulfur management by employing elemental sulfur as a reducing agent to synthesize sulfur-doped reduced graphene oxide (S-rGO). The S-rGO was incorporated into a porous polyimide (PPI) matrix to create a high-performance composite with enhanced flame retardancy, thermal stability, and tailored porosity. Comprehensive characterization revealed that sulfur doping introduced structural defects, which contributed to the material's improved functional properties. Additionally, the porosity in the PPI/S-rGO composite, combined with varying filler contents, enhanced thermal stability, dynamic storage modulus, and flame retardancy. This work provides a sustainable solution for sulfur management and presents a multifunctional material suitable for applications in industries requiring flame-retardant, thermally stable, and porous polymers, such as semiconductor coatings and battery separators. The excessive accumulation of sulfur from industrial processes poses a significantenvironmental challenge, contributing to acid rain, air pollution, and soil contamination. While managing this surplus sulfur is challenging, it has the potential to berepurposed into sustainable materials through proper utilization. This study introduces anovel approach to sulfur management by employing elemental sulfur as a reducing agentto synthesize sulfur-doped reduced graphene oxide (S-rGO). The S-rGO was incorporatedinto a porous polyimide (PPI) matrix to create a high-performance composite withenhanced flame retardancy, thermal stability, and tailored porosity. Comprehensive characterizationrevealed that sulfur doping introduced structural defects, which contributedto the material's improved functional properties. Additionally, the porosity in the PPI/S-rGOcomposite, combined with varying filler contents, enhanced thermal stability, dynamicstorage modulus, and flame retardancy. This work provides a sustainable solution for sulfurmanagement and presents a multifunctional material suitable for applications in industriesrequiring flame-retardant, thermally stable, and porous polymers, such as semiconductorcoatings and battery separators. KCI Citation Count: 0
Author	Hwon Park 하재석 배진석 Ki-ho Nam Jin-seok Bae 박훤 남기호 Jaeseok Ha
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Title	비할로겐계 난연성 고분자용 탄소계 나노 첨가제의 용융 유황 응용
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