Revised Manuscript with Corrections: Polyurethane-Based Conductive Composites: From Synthesis to Applications

The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric particles as well as to condense an outline on the chemistry and fabrication of polyurethanes (PUs). Additionally, we discuss related research t...

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Published inInternational journal of molecular sciences Vol. 23; no. 4; p. 1938
Main Authors Choi, Soon-Mo, Shin, Eun-Joo, Zo, Sun-Mi, Rao, Kummara-Madhusudana, Seok, Yong-Joo, Won, So-Yeon, Han, Sung-Soo
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 09.02.2022
MDPI
Subjects
Electric Conductivity
Graphite - chemistry
Hydrogels
Mechanical properties
Morphology
Nanocomposites
Nanocomposites - chemistry
Nanotubes, Carbon - chemistry
Polymerization
Polymers
Polymers - chemistry
Polyurethanes - chemistry
Review
Sensors
Zinc oxides
electrical
nanocomposite
conducting filler
polyurethane
conductive
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Abstract The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric particles as well as to condense an outline on the chemistry and fabrication of polyurethanes (PUs). Additionally, we discuss related research trends of PU-based conducting materials for EMI shielding, sensors, coating, films, and foams, in particular those from the past 10 years. PU is generally an electrical insulator and behaves as a dielectric material. The electrical conductivity of PU is imparted by the addition of metal nanoparticles, and increases with the enhancing aspect ratio and ordering in structure, as happens in the case of conducting polymer fibrils or reduced graphene oxide (rGO). Nanocomposites with good electrical conductivity exhibit noticeable changes based on the remarkable electric properties of nanomaterials such as graphene, RGO, and multi-walled carbon nanotubes (MWCNTs). Recently, conducting polymers, including PANI, PPY, PTh, and their derivatives, have been popularly engaged as incorporated fillers into PU substrates. This review also discusses additional challenges and future-oriented perspectives combined with here-and-now practicableness.
AbstractList The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric particles as well as to condense an outline on the chemistry and fabrication of polyurethanes (PUs). Additionally, we discuss related research trends of PU-based conducting materials for EMI shielding, sensors, coating, films, and foams, in particular those from the past 10 years. PU is generally an electrical insulator and behaves as a dielectric material. The electrical conductivity of PU is imparted by the addition of metal nanoparticles, and increases with the enhancing aspect ratio and ordering in structure, as happens in the case of conducting polymer fibrils or reduced graphene oxide (rGO). Nanocomposites with good electrical conductivity exhibit noticeable changes based on the remarkable electric properties of nanomaterials such as graphene, RGO, and multi-walled carbon nanotubes (MWCNTs). Recently, conducting polymers, including PANI, PPY, PTh, and their derivatives, have been popularly engaged as incorporated fillers into PU substrates. This review also discusses additional challenges and future-oriented perspectives combined with here-and-now practicableness.
The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric particles as well as to condense an outline on the chemistry and fabrication of polyurethanes (PUs). Additionally, we discuss related research trends of PU-based conducting materials for EMI shielding, sensors, coating, films, and foams, in particular those from the past 10 years. PU is generally an electrical insulator and behaves as a dielectric material. The electrical conductivity of PU is imparted by the addition of metal nanoparticles, and increases with the enhancing aspect ratio and ordering in structure, as happens in the case of conducting polymer fibrils or reduced graphene oxide (rGO). Nanocomposites with good electrical conductivity exhibit noticeable changes based on the remarkable electric properties of nanomaterials such as graphene, RGO, and multi-walled carbon nanotubes (MWCNTs). Recently, conducting polymers, including PANI, PPY, PTh, and their derivatives, have been popularly engaged as incorporated fillers into PU substrates. This review also discusses additional challenges and future-oriented perspectives combined with here-and-now practicableness.The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric particles as well as to condense an outline on the chemistry and fabrication of polyurethanes (PUs). Additionally, we discuss related research trends of PU-based conducting materials for EMI shielding, sensors, coating, films, and foams, in particular those from the past 10 years. PU is generally an electrical insulator and behaves as a dielectric material. The electrical conductivity of PU is imparted by the addition of metal nanoparticles, and increases with the enhancing aspect ratio and ordering in structure, as happens in the case of conducting polymer fibrils or reduced graphene oxide (rGO). Nanocomposites with good electrical conductivity exhibit noticeable changes based on the remarkable electric properties of nanomaterials such as graphene, RGO, and multi-walled carbon nanotubes (MWCNTs). Recently, conducting polymers, including PANI, PPY, PTh, and their derivatives, have been popularly engaged as incorporated fillers into PU substrates. This review also discusses additional challenges and future-oriented perspectives combined with here-and-now practicableness.
Author Won, So-Yeon
Choi, Soon-Mo
Rao, Kummara-Madhusudana
Han, Sung-Soo
Zo, Sun-Mi
Seok, Yong-Joo
Shin, Eun-Joo
AuthorAffiliation 1 Research Institute of Cell Culture, School of Chemical Engineering, Yeung-Nam University, 280 Daehak-ro, Gyeongsan 38541, Korea; smchoi@ynu.ac.kr
3 School of Chemical Engineering, Yeung-Nam University, 280 Daehak-ro, Gyeongsan 38541, Korea; sunmizo@ynu.ac.kr (S.-M.Z.); msraochem@yu.ac.kr (K.-M.R.); yjseok@yu.ac.kr (Y.-J.S.); soyeon1005@ynu.ac.kr (S.-Y.W.)
2 Department of Organic Materials and Polymer Engineering, Dong-A University, 37 Nakdong-daero 550beon-gil, Saha-gu, Busan 49315, Korea; sejoo6313@dau.ac.kr
AuthorAffiliation_xml – name: 3 School of Chemical Engineering, Yeung-Nam University, 280 Daehak-ro, Gyeongsan 38541, Korea; sunmizo@ynu.ac.kr (S.-M.Z.); msraochem@yu.ac.kr (K.-M.R.); yjseok@yu.ac.kr (Y.-J.S.); soyeon1005@ynu.ac.kr (S.-Y.W.)
– name: 1 Research Institute of Cell Culture, School of Chemical Engineering, Yeung-Nam University, 280 Daehak-ro, Gyeongsan 38541, Korea; smchoi@ynu.ac.kr
– name: 2 Department of Organic Materials and Polymer Engineering, Dong-A University, 37 Nakdong-daero 550beon-gil, Saha-gu, Busan 49315, Korea; sejoo6313@dau.ac.kr
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Issue 4
Keywords electrical
nanocomposite
conducting filler
polyurethane
conductive
Language English
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Soon-Mo Choi and Eun-Joo Shin as first co-corresponding authors, and Sun-Mi Zo as second author.
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SecondaryResourceType review_article
Snippet The purpose of this review article is to outline the extended applications of polyurethane (PU)-based nanocomposites incorporated with conductive polymeric...
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proquest
pubmed
crossref
SourceType Open Access Repository
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StartPage 1938
SubjectTerms Electric Conductivity
Graphite - chemistry
Hydrogels
Mechanical properties
Morphology
Nanocomposites
Nanocomposites - chemistry
Nanotubes, Carbon - chemistry
Polymerization
Polymers
Polymers - chemistry
Polyurethanes - chemistry
Review
Sensors
Zinc oxides
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  priority: 102
  providerName: ProQuest
Title Revised Manuscript with Corrections: Polyurethane-Based Conductive Composites: From Synthesis to Applications
URI https://www.ncbi.nlm.nih.gov/pubmed/35216059
https://www.proquest.com/docview/2632980642
https://www.proquest.com/docview/2633867544
https://pubmed.ncbi.nlm.nih.gov/PMC8872548
Volume 23
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