Graphene matrix formation in a natural rubber dispersoid

In this study, a composite of a natural rubber (NR) discontinuous phase (dispersoid) and a graphene continuous phase (matrix) was prepared and characterized. Graphene was prepared and grafted onto NR particles in the latex stage in the presence of the redox initiators tert -butylhydroperoxide and te...

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Bibliographic Details
Published in:Polymer journal 2022-05, Vol.54 (5), p.727-733
Main Authors: Pham, Minh Duc, Nguyen, Quan Hai, Nguyen, Quyen Thi, Cao, Quan Anh, Nga, Nguyen Kim, Kawahara, Seiichi, Nguyen, Ha Thu
Format: Article
Language:English
Subjects:
140/146
639/301/923
639/638/455/957
Biomaterials
Bioorganic Chemistry
Chemical synthesis
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Dispersions
Electromagnetic shielding
Graphene
Initiators
Latex
Mechanical properties
Morphology
Natural rubber
Original Article
Polymer Sciences
Rubber
Surfaces and Interfaces
Thin Films
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Summary:In this study, a composite of a natural rubber (NR) discontinuous phase (dispersoid) and a graphene continuous phase (matrix) was prepared and characterized. Graphene was prepared and grafted onto NR particles in the latex stage in the presence of the redox initiators tert -butylhydroperoxide and tetraethylene pentaamine. The structure and morphology of the resulting materials were characterized through XRD, TEM and DSC. The mechanical and electromagnetic shielding properties of the samples were investigated and compared with those of an NR/graphene blend in which graphene forms a discontinuous phase. The results show that graphene, which is the minor component, can successfully form a matrix and that NR, which is the major component, acts as a dispersoid. The electromagnetic shielding and mechanical properties of NR with a graphene matrix are found to be superior to that for NR with graphene as the discontinuous phase. The improvement in the NR performance is attributed to the formation of a graphene matrix. Polymer and composite synthesis and structures. Formation of Graphene Matrix in Natural Rubber Dispersoid. In this study, the preparation of and characterization of a composite of natural rubber (NR) discontinuous phase (dispersoid) and graphene continuous phase (matrix) were carried out. Graphene (G) was prepared and grafted on rubber particle in latex stage in the presence of initiator tert -butylhydroperoxide and tetraethylene pentaamine with optimal amount of surfactant. The structure, the morphology, the mechanical properties, and the electromagnetic shielding of the resulting materials were superior compared to that of NR/graphene blend.
ISSN:0032-3896
1349-0540
DOI:10.1038/s41428-022-00620-4