Fast and Fully Scalable Synthesis of Graphene Oxide from Cellulose by Catalytic Acid Spray Method (CAS)
Arabian Journal for Science and Engineering • 2019
Publication Information
Authors
Mahmoud Fathy· Th. Abdel Moghny· Mahmoud Ahmed Mousa
Keywords
Science
Journal
Arabian Journal for Science and Engineering
Publisher
Springer
Volume
44
Issue
Not Available
Pages
305-313
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Graphene oxide (GO) characterized by high electrical conductivity and thermal stability can be considered as a single
monomolecular graphite layer, containing numerous functional oxygen groups such as epoxide, carbonyl, carboxyl and
hydroxyl groups. Therefore, in this work, we have come to produce high quantities of GO sheets by innovative, simple
and hydrazine-free methods based on rice straw, using catalytic acid spray method (CAS) in the presence of cobalt silicate
nanoparticle as a catalyst. The structure of graphene oxide was characterized by FTIR, Raman, HR-TEM and DLS. FTIR
shows that GO comprises some efficient hydroxyl (OH), epoxy (cyclic ether), carboxyl and carbonyl groups. XRD shows
that the interlayer spacing of GO prepared by our techniques is higher to some extent than the interlayer spacing of other
GO produced by another processes. We can say that, GO sheets can be produced for various applications, in large quantities,
high efficiency and low cost, by adjusting the parameters such as acid strength or catalytic doses used in the CAS method.
Thereby, we can overcome the weak inter-bond between the GO sheets without cracking them.
monomolecular graphite layer, containing numerous functional oxygen groups such as epoxide, carbonyl, carboxyl and
hydroxyl groups. Therefore, in this work, we have come to produce high quantities of GO sheets by innovative, simple
and hydrazine-free methods based on rice straw, using catalytic acid spray method (CAS) in the presence of cobalt silicate
nanoparticle as a catalyst. The structure of graphene oxide was characterized by FTIR, Raman, HR-TEM and DLS. FTIR
shows that GO comprises some efficient hydroxyl (OH), epoxy (cyclic ether), carboxyl and carbonyl groups. XRD shows
that the interlayer spacing of GO prepared by our techniques is higher to some extent than the interlayer spacing of other
GO produced by another processes. We can say that, GO sheets can be produced for various applications, in large quantities,
high efficiency and low cost, by adjusting the parameters such as acid strength or catalytic doses used in the CAS method.
Thereby, we can overcome the weak inter-bond between the GO sheets without cracking them.
Staff Members - Benha University