Rapid Functionalization of Graphene Oxide in Water

Polymer composites containing carbon nanoparticles have recently garnered much attention due to superb electronic, mechanical, and gas barrier properties. Graphene oxide (GO) and reduced graphene oxide (rGO) stand out among carbon nanofillers due to cost efficiency and scalability, but one hurdle pr...

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Published inChemistry of materials Vol. 26; no. 19; pp. 5806 - 5811
Main Authors McGrail, Brendan T., Rodier, Bradley J., Pentzer, Emily
Format Journal Article
LanguageEnglish
Published American Chemical Society 14.10.2014
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Abstract Polymer composites containing carbon nanoparticles have recently garnered much attention due to superb electronic, mechanical, and gas barrier properties. Graphene oxide (GO) and reduced graphene oxide (rGO) stand out among carbon nanofillers due to cost efficiency and scalability, but one hurdle preventing their widespread use is the lack of miscibility of GO and rGO platelets with polymer matrixes. The desired processability can be achieved by covalent functionalization of GO and rGO, but current methods necessitate anhydrous conditions and harsh reagents. Herein, we describe the rapid covalent functionalization of GO and rGO in acidic aqueous suspensions under ambient conditions using the Pinner reaction between hydroxyl groups on (r)­GO and nitriles. The modified platelets are characterized by FTIR, Raman, AFM, TGA, XPS, and four-point probe conductivity measurements. Using this methodology, GO requires little purification and no drying after preparation and multiple grams can be functionalized with a variety of small molecule and polymer nitriles in only a couple of hours. Furthermore, functionalized platelets are isolated by centrifugation or filtration, readily giving conductive platelets with tailored solubility and functionalities for further modification.
AbstractList Polymer composites containing carbon nanoparticles have recently garnered much attention due to superb electronic, mechanical, and gas barrier properties. Graphene oxide (GO) and reduced graphene oxide (rGO) stand out among carbon nanofillers due to cost efficiency and scalability, but one hurdle preventing their widespread use is the lack of miscibility of GO and rGO platelets with polymer matrixes. The desired processability can be achieved by covalent functionalization of GO and rGO, but current methods necessitate anhydrous conditions and harsh reagents. Herein, we describe the rapid covalent functionalization of GO and rGO in acidic aqueous suspensions under ambient conditions using the Pinner reaction between hydroxyl groups on (r)­GO and nitriles. The modified platelets are characterized by FTIR, Raman, AFM, TGA, XPS, and four-point probe conductivity measurements. Using this methodology, GO requires little purification and no drying after preparation and multiple grams can be functionalized with a variety of small molecule and polymer nitriles in only a couple of hours. Furthermore, functionalized platelets are isolated by centrifugation or filtration, readily giving conductive platelets with tailored solubility and functionalities for further modification.
Author Rodier, Bradley J.
Pentzer, Emily
McGrail, Brendan T.
AuthorAffiliation Department of Chemistry
Case Western Reserve University
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  givenname: Emily
  surname: Pentzer
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  email: emily.pentzer@case.edu
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