2D Monoelements. Группа авторов
Properties of Germanene 9.4 Applications of Germanene 9.5 Conclusions References
14 10 2D Graphene Nanostructures for Biomedical Applications 10.1 Introduction 10.2 Applications of Graphene in Biomedicine 10.3 Conclusion References
15 11 Graphene and Graphene-Integrated Materials for Energy Device Applications 11.1 Introduction 11.2 Graphene-Integrated Electrodes for Lithium-Ion Batteries (LIBs) 11.3 Graphene-Integrated Nanocomposites for Supercapacitors (SCs) 11.4 Conclusion References
16 Index
List of Tables
1 Chapter 4Table 4.1 Binding and dominant mechanisms of graphene oxide with various cancer ...
2 Chapter 5Table 5.1 Quantitative and qualitative aspects of the pore features for the prev...Table 5.2 Comparative table listing specific capacitance obtained for various MO...
3 Chapter 6Table 6.1 Below table summarizes various elements in the periodic table which ca...Table 6.2 Different types of two-dimensional monoelements (Xenes) and their vari...
4 Chapter 8Table 8.1 Advantages and disadvantages of the graphene preparative methods.Table 8.2 Experimental parameters in the graphene sensing technology.Table 8.3 Graphene based assay for glucose analyte.Table 8.4 Fluoroscence sensing technology in nucleic acid/aptamer assay.Table 8.5 Bond order and bond length of gas molecules.Table 8.6 Sensitivity of the drug and antioxidant sensors.
5 Chapter 9Table 9.1 Structural and electronic parameters of elemental structures. Electron...Table 9.2 Structural and electronic parameters of hydrogenated elemental structu...
6 Chapter 11Table 11.1 Comparison of the different types of capacitors [107].
List of Illustrations
1 Chapter 1Figure 1.1 Optimized crystallographic structure of (a) 3D BP and (b) 2D BP.Figure 1.2 Graph of electronic features corresponding to 2D BP. (a) the band str...Figure 1.3 Absorption spectra for undeformed monolayer phosphorene with 0% strai...Figure 1.4 (a) and (b) dielectric function, (c) absorption coefficient, (d) refl...Figure 1.5 Polar plot of (a) Young modulus in J/m2 and (b) positive and negative...Figure 1.6 Monolayer phosphorene under different values of in-plane compressive ...Figure 1.7 The three possible adsorption sites.Figure 1.8 DOS of spin up and down of adatoms.Figure 1.9 Configurations of 50% oxidized phosphorene: (a) dangling structures a...Figure 1.10 GGA and GW band structures of half-oxidized structures.Figure 1.11 Absorption coefficient of dangling structures (on the left) and brid...Figure 1.12 Excitons wave functions. Black balls represent the holes.Figure 1.13 Part of polar plots of (a) Young modulus, (b) Poisson ratios.Figure 1.14 (a) Top and (b) side views of phosphorene oxides PO.Figure 1.15 Phosphorene oxide (a) band structure and density of states, (b) phon...Figure 1.16 Absorption spectrum and exciton wavefunction for the first transitio...Figure 1.17 Mode-dependent anharmonic phonon relaxation time for acoustic modes.
2 Chapter 2Figure 2.1 (a) Top views of the relaxed antimonene monolayer allotropic forms wi...Figure 2.2 HSE06 calculated electronic band structures of trilayer, bilayer, and...Figure 2.3 (a) Diagram of the steps involved in the sophisticated version of mec...Figure 2.4 (a) Optical image of a dispersion of exfoliated few-layer antimonene....Figure 2.5 (a) Schematic diagram of the synthesis process of antimonene by the v...Figure 2.6 (a) Schematic of growth process of monolayer antimonene on 2D PdTe2 s...Figure 2.7 (a) Phase shift of the antimonene-based AOM as a function of pump pow...Figure 2.8 (a) Current-density-voltage (J-V) curves of devices without (Device 1...Figure 2.9 (a) LSV curves of bulk Sb- and SbNSs-modified glassy carbon electrode...Figure 2.10 (a) The first and two charge/discharge cycles of the SbNS-G film at ...Figure 2.11 (a) Time-dependent photothermal heating curves of PEG-modified AMQDs...
3 Chapter 3Figure 3.1 The graphene transformation as layered graphene, carbon nanotube, and...Figure 3.2 Chemical structure.Figure 3.3 Orbital structure.Figure 3.4 Synthesis methods of graphene.Figure 3.5 Organic structure of graphene.
4 Chapter 4Figure 4.1 Schematic representation of (a) graphene and (b) graphene oxide.Figure 4.2 Schematic representation of interaction between graphene oxide with s...Figure 4.3 Schematic representation of binding coordinate between graphene oxide...Figure 4.4 Schematic representation of binding coordinate between graphene oxide...
5 Chapter 5Figure 5.1 (a) Schematic diagram showing various types of porous materials [23–2...Figure 5.2 (a) Schematic representation of the structure