Graphene, a nanocarbon with exceptional physical and electronic properties, has the potential to be utilized in a myriad of applications and devices. However, this will only be achieved if scalable, processable forms of graphene are developed along with ways to fabricate these forms into material ...
2 Since then, more allotropes of carbon have been reported and a large scientific community has been passionate about deciphering the properties of this element that can adopt many structures ranging from diamond and graphite (3D) to graphene (2D) [2], nanotubes (1D) [3] or fullerenes (0D...
2. Structure and properties of graphene 3. Graphene-based nanostructures 4. Exceptional physical properties of graphene 5. Applications of graphene for real-time applications 6. Recent progress on graphene research 7. Conclusion and future prospects Declaration of Competing Interest Acknowledgements Referenc...
Neural interface medical devices offer therapeutic options to patients suffering from certain neurological disorders and neural impairments (for example, Parkinson’s disease1, deafness2 or amputations3)4,5. To broaden the range of clinical uses of neural interfaces, improvements in efficacy are needed...
Graphene optical properties Graphene is the name given to a fiber at monolayer of carbon atoms tightly packed into a two-dimensional (2D) honeycomb lattice [21], and is a basic building block for graphitic materials of all other dimensionalities, as shown in the inset of Fig.1. Due to its...
Conversion of graphene into GO and rGO Full size image GO has unique intrinsic physical as well as chemical properties. Some of the chemical properties include large surface area, functionality containing oxygen, better conductivity and good biocompatibility. The chemical property allows it to be used...
I present a review of both experimental and theoretical studies performed during the recent three years, which deal with the physical properties and possible applications of graphene placed on ferroelectric (organic or Pb(ZrxTi1-x)O3 (PZT) ceramic) substrates. The system 'graphene-on-ferroelectric...
The width of GNRs can range from a few nanometers to tens of nanometers, and it strongly influences their electronic properties. GNRs can be classified into two main types based on their geometry along the edge: armchair-edge GNRs and zigzag-edge GNRs. In the current work, we solely focus...
Outline Abstract Keywords 1. Introduction 2. Synthesis 3. Properties of graphene oxide 4. Applications of GO and rGO 5. Conclusion and outlook Acknowledgements ReferencesShow full outline Cited by (1237) Figures (14) Show 8 more figures
The structure, properties, and applications of graphene oxide. Full size image Some of the current methods (centrifugation, chromatography, fluorescence, and magnetic-activated cell sorting) used for cancer diagnosis are highly dependent on the expertise and subjective judgment of the operator, whereas ...