Abstract
The conversion of graphene oxide (GO) into reduced graphene oxide (rGO) is imperative for the electronic device applications of graphene-based materials. Efficient and cost-effective fabrication of highly uniform GO films and the successive reduction into rGO on a large area is still a cumbersome task through conventional protocols. Improved film casting of GO sheets on a polymeric substrate with quick and green reduction processes has a potential that may establish a path to the practical flexible electronics. Herein, we report a facile deposition process of GO on flexible polymer substrates to create highly uniform thin films over a large area by a flow-enabled self-assembly approach. The self-assembly of GO sheets was successfully performed by dragging the trapped solution of GO in confined geometry, which consisted of an upper stationary blade and a lower moving substrate on a motorized translational stage. The prepared GO thin films could be selectively reduced and facilitated from the simple laser direct writing process for programmable circuit printing with the desired configuration and less sample damage due to the non-contact mode operation without the use of photolithography, toxic chemistry, or high-temperature reduction methods. Furthermore, two different modes of the laser operating system for the reduction of GO films turned out to be valuable for the construction of novel graphene-based high-throughput electrical circuit boards compatible with integrating electronic module chips and flexible humidity sensors.
Highlights
Graphene is a two-dimensional (2D) monolayer of sp2 carbon atoms arranged in a hexagonal or honeycomb lattice
Sensors 2018, 18, 1857 reduction from graphite [6], thermal decomposition of SiC [7], mechanical milling exfoliation [8], and unzipping of carbon nanotubes [9]. Among these main graphene production techniques, the chemical exfoliation of graphite using strong oxidants has been intensely explored to prepare colloidal suspensions of individual 2D graphene oxide (GO) sheets dispersed in a volatile solvent, followed by the reduction of GO, which yields reduced graphene oxide [10,11]
To enhance the adhesion between the polymer substrate and GO film, we modified the surface of PP substrate using mild oxygen plasma and subsequent self-assembled monolayer (SAM) treatment (i.e., APTES), as schematically illustrated in Figure 1d [47]
Summary
Graphene is a two-dimensional (2D) monolayer of sp carbon atoms arranged in a hexagonal or honeycomb lattice. Sensors 2018, 18, 1857 reduction from graphite [6], thermal decomposition of SiC [7], mechanical milling exfoliation [8], and unzipping of carbon nanotubes [9]. Among these main graphene production techniques, the chemical exfoliation of graphite using strong oxidants has been intensely explored to prepare colloidal suspensions of individual 2D graphene oxide (GO) sheets dispersed in a volatile solvent, followed by the reduction of GO, which yields reduced graphene oxide (rGO) [10,11]
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