Catalog |
name |
Description |
price |
R-C-6537 |
Large diameter graphene oxide sheet |
The Large diameter graphene oxide sheet can be used for applications such as adsorption,separation, catalysis,solid-phase extraction,detection,and sensors.Due to the influence of ultrasound power and time on the size of graphene oxide flakes,prolonged ultrasound is not recommended.Store in a dry and dark place,with a storage temperature not exceeding 20 ℃.When dispersing solids,the temperature should be controlled below 20 ℃.The maximum storage period before opening is 6 months. |
price> |
R-C-6538 |
Graphene Oxide |
The monolayer rate of graphene oxide(GO)is as high as 99%,and the interlayer spacing is about 1nm. Fresh GO samples are brown in color, rich in oxygen-containing functional groups,and have good water solubility.Generally,after 2 hours of 700W ultrasound,a uniform water dispersion can be obtained,with good film-forming properties and excellent adsorption of single stranded DNA.They can be widely used in fields such as electrochemistry,biology,humidity sensing,fluorescence quenching,and heat dissipation, providing great convenience for scientific researchers. |
price> |
R-C-6539 |
Staudenmaier Method of graphite oxide powder |
The Staudenmaier method is a chemical oxidation method used to prepare graphite oxide powder.This method involves using a series of strong oxidants and acids to oxidize graphite,thereby producing graphite oxide.The Staudenmaier method typically involves the use of ammonium sulfate (NH4HSO4), nitric acid (HNO3),and chlorine containing oxidants such as potassium chlorate (KClO3). |
price> |
R-C-6540 |
Boron doping reduced graphene oxide powder |
Boron doping reduced graphene oxide powder,The boron doping of graphene also promotes excellent electronic properties by the tunability of the energy bandgap and electrical conductivity.B-rGO was initially synthesized using boric acid via the microwave-assisted hydrothermal technique.The structural and morphological studies of the synthesized B-rGO were then performed using the FESEM,FTIR,XPS, Raman,and XRD techniques. |
price> |
R-C-6541 |
Vitamin C Reduced Graphene Oxide |
Vitamin C reduced graphene oxide finds applications in various fields,including energy storage devices, sensors,composites, and biomedical applications.The use of vitamin C as a reducing agent offers a mild and environmentally friendly approach to reduce graphene oxide and produce reduced graphene oxide with improved properties. |
price> |
R-C-6542 |
Tea polyphenol reduced graphene oxide |
Tea polyphenols can effectively reduce oxidized graphene,which not only utilizes the reducibility of phenolic hydroxyl groups in tea polyphenols,but also undergoes surface non covalent modification of the obtained graphene.The anti thrombotic properties of tea polyphenols and the large amount of negative charge they carry neutralize the charge of positively charged graphene oxide,thereby reducing it to graphene.This process greatly reduces the toxic effect of graphene oxide |
price> |
R-C-6543 |
Graphene oxide film (Filtering method) |
Graphene oxide membranes have a large specific surface area, good hydrophilicity, microporous structure, and a large number of functional groups,making them widely used in water treatment. Removal of heavy metals.The removal mechanism includes size screening,charge effect,and adsorption.Antibacterial.The mechanism is that the nano edges of graphene oxide can penetrate the cell membrane and cause cell death,based on which the graphene oxide membrane may have dual anti fouling properties of both hydrophilicity and antibacterial properties |
price> |
R-C-6544 |
Nitrogen-doped graphene sheet spherical mixture |
A mixture of graphene flakes and spheres implies the presence of a combination of flake and spherical structures in the material.This mixture may be composed of nitrogen doped graphene and other forms of carbon materials or graphene,forming a mixture of different forms of carbon structures.Such nitrogen doped graphene flake spherical mixtures may have various unique properties and application potential, such as important applications in the field of electrochemistry,sensors,catalysts,and energy storage systems. |
price> |
R-C-6545 |
Nitrogen-doped reduced graphene oxide power |
Nitrogen-doped reduced graphene oxide(N-doped rGO)is a modified form of reduced graphene oxide where nitrogen atoms are incorporated into the graphene structure.This doping can enhance several properties of graphene,such as electrical conductivity,catalytic activity,and chemical stability,making it useful in various applications including energy storage devices,catalysis,and sensors. |
price> |
R-C-6546 |
Carboxylated reduced graphene oxide power |
Carboxylated reduced graphene oxide(C-rGO)is a material prepared by introducing carboxyl groups(- COOH)onto graphene oxide(GO)and reducing its structure.This material has rich surface functional groups and good conductivity,and is widely used in biomedicine,electrochemical sensors,and other fields. |
price> |