Graphene, the thinnest two-dimensional material possible, is considered as a realistic candidate for the numerous applications in electronic, energy storage and conversion devices due to its unique properties, such as high optical transmittance, high conductivity, excellent chemical and thermal stability....
Recently, a lot of effort has been focused on improving the performance and exploring the electric properties of graphene. This article presents a summary of chemical doping of graphene aimed at tuning the electronic properties of graphene. p-Type and n-type doping of graphene achieved through sur...
In this chapter, the following subsections shall focus on the nature, chemical structure, properties, synthesis, and applications of graphene and its composites. Keywords: Anticorrosion properties, chemical modification, graphene, nanocomposites, transconductivity...
Graphene derivatives (GD) are currently being evaluated for technological and biomedical applications owing to their unique physico-chemical properties over other carbon allotrope such as carbon nanotubes (CNTs). But, the possible association of their properties with underlying in vitro effects have not ...
Interest in graphene centres on its excellent mechanical, electrical, thermal and optical properties, its very high specific surface area, and our ability to influence these properties through chemical functionalization. There are a number of methods for generating graphene and chemically modified graphene...
Adsorption of methylene blue from aqueous solution by graphene Graphene was prepared using a modified Hummers' method. The physico-chemical properties of graphene were characterized by TEM, BET specific surface area, F... T Liu,Y Li,Q Du,... - 《Colloids Surf B Biointerfaces》 被引量: 521...
A 4″ × 4″ graphene film was transferred onto... W Wei,Z Liu,LA Jauregui,... - 《Sensors & Actuators B Chemical》 被引量: 282发表: 2010年 In situ synthesis and thermoelectric properties of PbTe-graphene nanocomposites by utilizing a facile and novel wet chemical method Uher, In situ...
Recently, graphene has gained significant interest owing to its outstanding conductivity, mechanical strength, thermal stability, etc. Among various graphene synthesis methods, atmospheric pressure chemical vapor deposition (APCVD) is one of the best syn
Nature. 446, 60 (2007); (b) Pop, E., Roy, A.K., Varshney, V.: Thermal properties of graphene: Fundamentals and applications. MRS Bull. 37, 1273 (2012); (c) Thermal Conductivity. http://ndl.ee.ucr.edu/MRS-Talk-09.pdf. Accessed June 2016 (a) Novoselov, K.S., Jiang, D., ...
Several nanometer-thick graphene oxide films deposited on silicon nitride-on silicon substrates were exposed to nine different heat treatments (three in Argon, three in Argon and Hydrogen, and three in ultra-high vacuum), and also a film was held at 70 °C while being exposed...