Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Synthesis and analysis of flakes graphene oxide
View through CrossRef
The presented article is devoted to the synthesis and analysis of flakes graphene oxide obtained by the Hammers method. The synthesized flakes graphene oxide was studied using SEM, EDX, X-ray diffraction, Raman spectroscopy, element analysis, temperature dependent of resistance and IR spectroscopy. As a result of calculating the results of X-ray analysis according to the Debye-Scherer’s formula, the thickness of graphite flakes was about 12,9nm and the number of layers was 38. The result of the Raman analysis show that high quality flakes grapheme oxide was obtained. Based on the result of elementary analysis of grapheme oxide mass, the C/O ratio was determined to be 1,42. The grapheme layers inside the sample were 3,31nm thick and 14,8nm long by scanning electron microscope. The temperature variation of the resistance was determined. IR spectroscopy shows the results of the absorption of electromagnetic radiation in the infrared range by atomic groups of reduced grapheme oxide and the excitation of the molecule by light quanta. When a molecule is irradiated with infrared radiation, it is shown that only quantum absorption quantities are formed according to the frequencies of the molecules.
Title: Synthesis and analysis of flakes graphene oxide
Description:
The presented article is devoted to the synthesis and analysis of flakes graphene oxide obtained by the Hammers method.
The synthesized flakes graphene oxide was studied using SEM, EDX, X-ray diffraction, Raman spectroscopy, element analysis, temperature dependent of resistance and IR spectroscopy.
As a result of calculating the results of X-ray analysis according to the Debye-Scherer’s formula, the thickness of graphite flakes was about 12,9nm and the number of layers was 38.
The result of the Raman analysis show that high quality flakes grapheme oxide was obtained.
Based on the result of elementary analysis of grapheme oxide mass, the C/O ratio was determined to be 1,42.
The grapheme layers inside the sample were 3,31nm thick and 14,8nm long by scanning electron microscope.
The temperature variation of the resistance was determined.
IR spectroscopy shows the results of the absorption of electromagnetic radiation in the infrared range by atomic groups of reduced grapheme oxide and the excitation of the molecule by light quanta.
When a molecule is irradiated with infrared radiation, it is shown that only quantum absorption quantities are formed according to the frequencies of the molecules.
Related Results
Preparation of Graphene Fibers
Preparation of Graphene Fibers
Graphene owns intriguing properties in electronic, thermal, and mechanic with unique two-dimension (2D) monolayer structure. The new member of carbon family has not only attracted ...
Synthesis of Fe3O4-Reduced Graphene Oxide Modified Tissue-Paper and Application in the Treatment of Methylene Blue
Synthesis of Fe3O4-Reduced Graphene Oxide Modified Tissue-Paper and Application in the Treatment of Methylene Blue
Graphene-based composites have received a great deal of attention in recent year because the presence of graphene can enhance the conductivity, strength of bulk materials and help ...
Characterization and preliminary application of top-gated graphene ion-sensitive field effect transistors
Characterization and preliminary application of top-gated graphene ion-sensitive field effect transistors
Graphene, a 2-dimensional material, has received increasing attention due to its unique physicochemical properties (high surface area, excellent conductivity, and high mechanical s...
NANOPARTICLES OF NOBLE METALS ON THE SURFACE OF GRAPHENE FLAKES
NANOPARTICLES OF NOBLE METALS ON THE SURFACE OF GRAPHENE FLAKES
Carbon is a spread element that has many different reaction combinations. Obtaining new composite materials based on nanoparticles is a very actual and perspective topic because na...
(Invited) Excellent Wetting Behavior of Yttria on 2D Materials
(Invited) Excellent Wetting Behavior of Yttria on 2D Materials
A high quality yttrium oxide (yttria, Y2O3) dielectric has been grown on different carbon derivatives materials (carbon nanotubes, exfoliated graphene, chemical vapor deposition gr...
Graphene Growth and Characterization: Advances, Present Challenges and Prospects
Graphene Growth and Characterization: Advances, Present Challenges and Prospects
It is about a decade since graphene became a material for serious research by researchers in condensed matter of various nationalities making significant progress. This paper on gr...
Thermal Characterization of Graphene Based Composites
Thermal Characterization of Graphene Based Composites
Graphene, an atomic thin two-dimensional carbonaceous nanomaterial, has exceptional electrical, mechanical and chemical properties. There is also great research interest in the dev...
Exploring defects and induced magnetism in epitaxial graphene films
Exploring defects and induced magnetism in epitaxial graphene films
Graphene has been demonstrated to have unique properties not only in its virgin state but also by altering its environment through rotations in bilayer graphene, doping, and creati...