Analytische Chemie
Filtern
Dokumenttyp
Sprache
- Englisch (4)
Referierte Publikation
- ja (4)
Schlagworte
- Graphene oxide (4) (entfernen)
Organisationseinheit der BAM
Preparation of graphene oxide by cyanuric chloride as an effective and non-corrosive oxidizing agent
(2016)
In this work, we report a new method for the synthesis of graphene oxide (GO) using cyanuric chloride as a non-corrosive oxidizing agent.
The mild conditions, simple purification, and scalability of this method are significant advantages over common approaches in which harsh oxidizing agents are used. Moreover, a major drawback with the Hummers' method, the production of toxic gases, is not an issue with this process. This method is a safe and large-scale alternative for the production of GO under mild conditions.
A controlled, reproducible, gram-scale method is reported for the covalent functionalization of graphene Sheets by a one-pot nitrene [2+1] cycloaddition reaction under mild conditions. The reaction between commercially available 2,4,6-trichloro-1,3,5-triazine and sodium azide with thermally reduced graphene oxide (TRGO) results in defined dichlorotriazine-functionalized sheets. The different reactivities of the chlorine substituents on the functionalized graphene allow stepwise post-modification by manipulating the temperature.
This new method provides unique access to defined bifunctional 2D nanomaterials, as exemplified by chiral surfaces and multifunctional hybrid architectures.
This study evaluates on the possibility of using gold nanoparticles functionalizedwith the luminol derivative N-(aminobutyl)-N-(ethylisoluminol)(ABEI) and hybridizedwith graphene oxidenanoribbons on acarbon based screen-printedelectrode (ABEI-AuNP-GONR/SPE) as an enzymaticelectrochemiluminescence (ECL) urea sensor.The electrocatalytic activity and ECL intensity of ABEI-AuNP-GONR/SPE were found to increase proportionally with the concentrationofurea in the analyte sample,owing to the rise in pH value.These phenomena are attributed to increased formation of luminol monoanion precursors for further electrochemical oxidation,which in turn produce eitherluminol radicals or excited3-amino-phthalate molecules.The luminescence is most likely caused by the interaction of luminol radicals with superoxide radicals formed from dissolved oxygen. Thesensitivity of our sensor was determinedtobe 170.58 mM@1 and 16.23 mM@1 for urea concentrations from 2to5.82 mM and from 5.82 to 30 mM, respectively, coveringthe normal urea level in human blood.
Aiming at the overall negative surface charge of bacteria, a new strategy of antibacterial agents based on large polymer-modified graphene oxide (GO) sheets is assessed. The presented flexible, polycationic Sheets match the size and charge density of the Escherichia coli surface charge density (2 × 1014 cm−2). These matching parameters create an unspecific but very strong bacteria adsorber by multivalent, electrostatic attraction.
Their interaction with bacteria is visualized via atomic force and confocal microscopy and shows that they effectively bind and wrap around E. coli cells, and thereby immobilize them. The incubation of Gram-negative and -positive bacteria (E. coli and methicillin-resistant Staphylococcus aureus, MRSA) with these polycationic sheets leads to the inhibition of proliferation and a reduction of the colony forming bacteria over time.
This new type of antibacterial agent acts in a different mode of Action than classical biocides and could potentially be employed in medicinal, technical, or agriculture applications. The presented microsheets and their unspecific binding of cell interfaces could further be employed as adsorber material for bacterial filtration or immobilization for imaging, analysis, or sensor technologies.