Silica aerogel structures were intercalated with graphene oxide (GO) via the addition of GO to the colloidal silica sol and subsequent sol–gel polymerization. The potential of GO to act as a nanofiller, for ambient pressure dried, hydrophobic silica aerogels, was systematically investigated. The ...
4.2.2Graphene oxide Graphene oxide(GO) is a single layer of graphite that possesses a large specificsurface area, which permits the adsorption of many different moleculesviaπ-stacking andhydrogen bonding(Sanchez et al., 2012). It has been used in electronics, energy storage, drug delivery, and...
Graphene Oxide has a high surface area, and so it can be fit for use as electrode material for batteries, capacitors and solar cells. Graphene Oxide is cheaper and easier to manufacture than graphene, and so may enter mass production and use sooner. GO can easily be mixed with different po...
2D graphene oxide (GO) with large surface area, multivalent structure can easily bind single-stranded DNA/RNA (aptamers) through hydrophobic/π-stacking interactions, whereas aptamers having small size, excellent chemical stability and low immunogenicity bind to their targets with high affinity and spec...
rGO: reduced graphene oxide SEM: standard error of the mean TEM: transmission electron microscopy TJ: thigh junction WB: western blotting References Abbott NJ, Patabendige AA, Dolman DE, Yusof SR, Begley DJ. Structure and function of the blood–brain barrier. Neurobiol Dis. 2010;37:13...
Three-dimensional macrostructures (3DMs) of graphene and graphene oxide are being developed for fast and efficient removal of contaminants from water and air. The large specific surface area, versatile surface chemistry and exceptional mechanical properties of graphene-based nanosheets enable the formation...
Three-dimensional graphene-based materials have emerged as adsorbents for various contaminants. This property is usually attributed to its high surface area. However, studies showing a positive correlation between surface area versus adsorptive capacity are not found in the literature. This review summariz...
This paper reports on a facile synthesis method for reduced graphene oxide (rGO)/multi-walled carbon nanotubes (MWNTs) nanocomposites. The initial step involves the use of graphene oxide to disperse the MWNTs, with subsequent reduction of the resultant graphene oxide/MWNTs composites using l-ascor...
graphene oxidehas good hydrophilicity and large specific surface area, which is widely used in catalysts, sensors, pharmaceuticals and other fields. In addition, graphene oxide has many advantages such as low cost, mass production, and simple dissolution process [60]. Recent reports on the proton ...
Graphene oxide (GO), the functionalized graphene with oxygen-containing chemical groups, has recently attracted resurgent interests because of its superior properties such as large surface area, mechanical stability, tunable electrical and optical properties. Moreover, the surface functional groups of hydro...