The grapheneoxid derivative is an important part of graphene-based materials. The grapheneoxid’s highly-conjugated structure is gone, but the process of oxygenation maintains special surface properties. It also preserves a layer structure. The introduction of oxygen-containing groups not only makes the graphene oxide chemically stable, but also provides surface modification active sites and a larger specific surface area for the synthesis of graphene-based/graphene oxide-based materials. Graphene dioxide, the precursor of composite graphene materials, is essential. It is very easy to functionize, and also has excellent controllability. You can compound with it metal oxides or high-molecular plasticmers. It is capable of providing large areas to effectively disperse and prevent agglomeration. The presence of several oxygen-containing groups around graphene sheets’ edges and bases can control grapheneoxid, in addition to the excellent physical, chemical, and optical properties. This allows the management of grapheneoxid’s conductivity, as well as the band gap. You can use this material for many purposes. Graphene oxide is an innovative carbon substance with extraordinary properties. Graphene dioxide’s surfaces have a high degree of specificity and many functional group. A wide range of applications for grapheneoxid composite material (including polymer-composite materials) have led to the creation of a new research area: surface modification.
1 Optoelectronics
In 2016, Karteri et al. Karteri and coworkers studied organic thin films transistors made with double insulation layers of SiO2/GO in 2016. The photoresponse characters of the devices were studied as well. The characteristics of the transistor could also be improved by adding Go to the insulating layers.
2 solar cells
You can use GO to transport holes in your polymer solar cell instead of PEDOT.PSS. The photoelectric conversion efficiency (PCE) will be the same. An experiment has been performed to determine the impact of different thicknesses for GO in polymer-based photovoltaic cells. Our research revealed that the thinnest device for photoelectric conversion is GO 2.
3 Flexible Sensor
Modifications of GO are simple because it has many hydrophilic functional class. GO has a high specific surface, great dispersion, and great humidity sensitivity making it an excellent material for sensor materials. This is especially true of field flexible sensors.
4. Biological aspects
It is an unique mixture of mechanical, optical and electronic properties. It has been used in biotechnology as well as medical engineering and nanomedicine. It plays an important role in drug discovery, bioimaging, as well as biomolecular and molecular sense. GO’s surface area is greater than that of other planar or spherical Nanomaterials. It is also easily modifiable and highly biocompatible. GO, alkene derivatives thereof, as well their surface chemistry, can also affect biological systems. More research is required to establish GO’s biosafety. The material science allows us to make low-toxicity materials more biocompatible and modify GO. We can create GO that’s stable, non toxic and clear in structure.
Advanced material Tech Co., Ltd., is a leading supplier of grapheneoxide with over 12 years of experience in chemical product development and research. Payments can be made by Credit Card. T/T or Paypal. Cataniadagiocare sends goods to international customers via FedEx, DHL or airmail.
For graphene powder with high quality, please send us an enquiry
1 Optoelectronics
In 2016, Karteri et al. Karteri and coworkers studied organic thin films transistors made with double insulation layers of SiO2/GO in 2016. The photoresponse characters of the devices were studied as well. The characteristics of the transistor could also be improved by adding Go to the insulating layers.
2 solar cells
You can use GO to transport holes in your polymer solar cell instead of PEDOT.PSS. The photoelectric conversion efficiency (PCE) will be the same. An experiment has been performed to determine the impact of different thicknesses for GO in polymer-based photovoltaic cells. Our research revealed that the thinnest device for photoelectric conversion is GO 2.
3 Flexible Sensor
Modifications of GO are simple because it has many hydrophilic functional class. GO has a high specific surface, great dispersion, and great humidity sensitivity making it an excellent material for sensor materials. This is especially true of field flexible sensors.
4. Biological aspects
It is an unique mixture of mechanical, optical and electronic properties. It has been used in biotechnology as well as medical engineering and nanomedicine. It plays an important role in drug discovery, bioimaging, as well as biomolecular and molecular sense. GO’s surface area is greater than that of other planar or spherical Nanomaterials. It is also easily modifiable and highly biocompatible. GO, alkene derivatives thereof, as well their surface chemistry, can also affect biological systems. More research is required to establish GO’s biosafety. The material science allows us to make low-toxicity materials more biocompatible and modify GO. We can create GO that’s stable, non toxic and clear in structure.
Advanced material Tech Co., Ltd., is a leading supplier of grapheneoxide with over 12 years of experience in chemical product development and research. Payments can be made by Credit Card. T/T or Paypal. Cataniadagiocare sends goods to international customers via FedEx, DHL or airmail.
For graphene powder with high quality, please send us an enquiry
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