Add to ORKGThe great dispersity of graphene oxide (GO) in water and ability to form liquid crystals (LC) have been highlighted for low cost and high throughput solution processes in GO-based applications. In these processes, colloidal stability of GO suspension determines the physical properties and performance of GO applications. For example, liquid-to-solid-like transition of GO suspension can hamper the process in GO-LC based applications, increasing the solution viscosity. Therefore, a deeper understanding towards GO-GO interactions as colloids is required to design high-performance GO applications. Here, we discuss the detailed microstructures and rheological properties of GO suspensions in the presence of polymer. Remarkable result was that addi...
Graphene oxide (GO), often referred to as a two-dimensional colloid, can be easily dispersed in wate...
Liquid crystal ordering is an opportunity to develop novel materials and applications with spontaneo...
Graphene oxide (GO) flakes dissolved in water can spontaneously form liquid crystals. Liquid crystal...
Graphene oxide liquid crystallinity (GO LC) has been widely exploited for high-performance graphene-...
Graphene and its oxidized form of graphene oxide (GO) have been of particular interest in material s...
Graphene oxide liquid crystallinity (GO LC) has been widely exploited for high-performance graphene-...
Graphene oxides (GOs), an oxygenated derivative of graphene, spontaneously undergo monolayer exfolia...
Graphene oxide (GO) has been of particular interest in material science, because it has potential in...
Graphene and its oxidized form of graphene oxide (GO) have been of particular interest in material s...
Graphene oxide (GO) can form liquid crystals in aqueous solution, which can be employed in many appl...
We report the rheological properties of liquid crystalline graphene oxide (GO) aqueous dispersion. G...
This thesis explores the properties, morphologies and formation mechanisms of graphene-based assembl...
Even though the rheological behavior of aqueous graphene oxide (G-O) dispersions has been shown to b...
Colloidal stability of graphene oxide (GO) is studied in aqueous and organic media accompanied by an...
Graphene oxide (GO), as a typical two-dimensional material, possesses a range of oxygen-containing g...
Graphene oxide (GO), often referred to as a two-dimensional colloid, can be easily dispersed in wate...
Liquid crystal ordering is an opportunity to develop novel materials and applications with spontaneo...
Graphene oxide (GO) flakes dissolved in water can spontaneously form liquid crystals. Liquid crystal...
Graphene oxide liquid crystallinity (GO LC) has been widely exploited for high-performance graphene-...
Graphene and its oxidized form of graphene oxide (GO) have been of particular interest in material s...
Graphene oxide liquid crystallinity (GO LC) has been widely exploited for high-performance graphene-...
Graphene oxides (GOs), an oxygenated derivative of graphene, spontaneously undergo monolayer exfolia...
Graphene oxide (GO) has been of particular interest in material science, because it has potential in...
Graphene and its oxidized form of graphene oxide (GO) have been of particular interest in material s...
Graphene oxide (GO) can form liquid crystals in aqueous solution, which can be employed in many appl...
We report the rheological properties of liquid crystalline graphene oxide (GO) aqueous dispersion. G...
This thesis explores the properties, morphologies and formation mechanisms of graphene-based assembl...
Even though the rheological behavior of aqueous graphene oxide (G-O) dispersions has been shown to b...
Colloidal stability of graphene oxide (GO) is studied in aqueous and organic media accompanied by an...
Graphene oxide (GO), as a typical two-dimensional material, possesses a range of oxygen-containing g...
Graphene oxide (GO), often referred to as a two-dimensional colloid, can be easily dispersed in wate...
Liquid crystal ordering is an opportunity to develop novel materials and applications with spontaneo...
Graphene oxide (GO) flakes dissolved in water can spontaneously form liquid crystals. Liquid crystal...