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石墨烯 英國Ossila石墨烯氧化物E881 進(jìn)口石墨烯氧化物E882

石墨烯 英國Ossila石墨烯氧化物E881 進(jìn)口石墨烯氧化物E882
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Graphene Oxide Powders and Solutions
Graphene oxide is one of the most popular 2D materials available. This is due to the wide range of fields that it can be applied to. It has a distinct advantage over other 2d materials (such as graphene), as it is easily dispersed within solution; allowing for processing at high concentrations. This has opened it up for use in applications such as optical coatings, transparent conductors, thin-film batteries, chemical resistant coatings, water purification, and many more. Ossila have two types of graphene oxide powders available, with flake sizes between 1-5um and 1-50um. In addition, we also offer pre-dispersed graphene oxide solutions for simple instant use.

石墨烯 英國Ossila石墨烯氧化物E881 進(jìn)口石墨烯氧化物E882

Product List

Graphene Oxide Powders

Graphene Oxide Solutions

石墨烯 英國Ossila石墨烯氧化物E881 進(jìn)口石墨烯氧化物E882

What Graphene Oxide is

Graphene oxide (GO), also referred to as graphite/graphitic oxide, is obtained by treating graphite with oxidisers, and results in a compound of carbon, oxygen, and hydrogen in variable ratios.

The structure and properties of GO are much dependent on the particular synthesis method and degree of oxidation. With buckled layers and an interlayer spacing almost two times larger (~0.7 nm) than that of graphite,  it typically still preserves the layer structure of the parent graphite.

GO absorbs moisture proportionally to humidity and swells in liquid water. GO membranes are vacuum-tight and impermeable to nitrogen and oxygen, but permeable to water vapours. The ability to absorb water by GO depends on the particular synthesis method and also shows a strong temperature dependence.

GO is considered as an electrical insulator for the disruption of its sp2 bonding networks. However, by manipulating the content of oxygen-containing groups through either chemical or physical reduction methods, the electrical and optical properties of GO can be dynamically tuned. To increase the conductivity, oxygen groups are removed by reduction reactions to reinstall the delocalised hexagonal lattice structure. One of the advantages GO has over graphene is that it can be easily dispersed in water and other polar organic solvents. In this way, GO can be dispersed in a solvent and reduced in situ, resulting in potentially monodispersed graphene particles.

Due to its unique structure, GO can be functionalised in many ways for desired applications, such as optoelectronics, drug delivery, chemical sensors, membrane filtration, flexible electronics, solar cells and more.

GO was first synthesised by Brodie (1859), followed by Hummers' Method (1957), and later on by Staudenmaier and Hofmann methods. Graphite (graphene) oxide has also been prepared by using a "bottom-up" synthesis method (Tang-Lau method) where glucose is the sole starting material. The Tang-Lau method is considered to be easier, cheaper, safer and more environmentally-friendly. The thickness, ranging from monolayer to multilayers, can by adjusted using the Tang-Lau process. The effectiveness of an oxidation process is often evaluated by the carbon/oxygen ratios of the GO.

Dispersion Guides

Due to the presence of oxygen and hydroxide groups, the dispersibility of this material is significantly better than other 2d materials (such as graphene). High concentrations of GO can be dispersed in polar solvents, such as water. At Ossila, we have found that the most stable solutions can be produced using the following recipe:

• Weigh out desired amount of material, this can go up to at least 5 mg.ml^-1.
• Add 1:1 ratio of deionized water to isopropyl alcohol.
• Shake vigorously to break up material.
• A short treatment in an ultrasonic bath will rapidly disperse the material.
• For larger flakes, use a mechanical agitator instead (as sonication may damage the flakes).

Technical Data

General Information

Product Images

SEM Images of flakes on silicon