MagnetismGraphene oxide (GO) has many functions, because it has many kinds of functional groups and defects. However, a detailed analysis of the functions and the relationships between the functions and functional groups, has never been made. Here, a detailed analysis of these functions and ...
abundant oxygen functional groups such as carbonyl, carboxyl, hydroxyl, epoxide, and phenolic groups are introduced between the carbon grids. Therefore, graphene oxide loses the sp2hybridization and eventually reduces the electrical conductivity (Chen, T. et al., 2012b; Dong et al., 2014; Priyada...
there remains an unmet need to turn molecular self-assembly into functional materials and devices. Harnessing the inherent properties of both disordered proteins and graphene oxide (GO), we report a disordered protein-GO co-assembling system that through a diffusion-reaction process...
Graphene Oxide films can be deposited on essentially any substrate, and later converted into a conductor. This is why GO is especially fit for use in the production of transparent conductive films, like the ones used for flexible electronics, solar cells, chemical sensors and more. GO is even ...
Controlling the structure of graphene oxide (GO) phases and their smaller analogues, graphene (oxide) quantum dots (GOQDs), is vitally important for any of their widespread intended applications: highly ordered arrangements of nanoparticles for thin-film
Functionalization graphene oxide with energetic groups as a new family of metal-free and energetic burning rate catalysts and desensitizers for ammonium pe... A new family of metal-free and energetic GO-based burning rate catalysts with excellent catalytic properties and desensitization performances for...
Graphene oxide (GO) has garnered significant interest for its exceptional properties and potential applications in various fields. This study investigated the disparities between graphene oxide synthesized in an ammonia-acetone solution and graphene oxide synthesized in acetone using...
Identification of functional groups and determination of carboxyl formation temperature in graphene oxide using the XPS O 1s spectrum 来自 国家科技图书文献中心 喜欢 0 阅读量: 34 作者:Ging,Meng,Kwan,Yue,Chau,Garen,Huan,Cheng,Hon,Alfred 摘要: Experimental information on the O 1s spectra of GO ...
As observed, the highest adsorption capacity is related to materials with GO decorated with Y and titanium oxide. As observed, the specific surface area is not proportionally related to the adsorption capacity; instead, the synthesis method, as well as the functional groups, are the most ...
Graphene oxide (GO) is a carbon-based conductive nanolayered material consisting of hydrophilic oxygenated graphene sheets bearing the polar functional groups interconnected by covalent bonds, such as epoxy and hydroxyl groups on the surface of graphene, plus carbonyl and carboxylic acids on the edges ...