Amorphous Nanomaterials. Lin Guo

Amorphous Nanomaterials

of several anode m...Figure 10.5 (a) Reconstructed heterostructure model of amorphous SiO (left) ...Figure 10.6 (a) Electrochemical analyses of FeO_x/CNF composites. (b) The sch...Figure 10.7 (a) SEM top-view images of amorphous TiO₂ (b) Electrochemical ch...Figure 10.8 (a) Schematic representations of structural changes upon lithiat...Figure 10.9 (a) TEM image (left) and XRD pattern (right) of amorphous copper...Figure 10.10 Structure and morphology of the tin-based oxide material. (a) X...Figure 10.11 TGA of various carbon samples with different irreversible capac...Figure 10.12 (a) TEM image images of hollow carbon nanospheres. (b) Electroc...Figure 10.13 (a) Wide-angle XRD patterns (left) and HRTEM images (right) of ...Figure 10.14 (a–b) Structure change and (c–f) the electrochemical performanc...Figure 10.15 (a) Formation mechanism and the electrochemical characterizatio...Figure 10.16 Electrochemical performances of V₂O₅/C as a positive electrode ...Figure 10.17 (a) Voltage vs. capacity for oxide and sulfide electrode materi...

11 Chapter 11Figure 11.1 Schematics of charge storage mechanisms for (a) an EDLC and (b−d...Figure 11.2 The influence of the carbon nanoparticles to the specific capaci...Figure 11.3 (a) SEM image, (b) HR-TEM image, and (c) XRD pattern of AC-KOH. ...Figure 11.4 SEM (left) and TEM (right) images of the as-prepared CNFs (a, b)...Figure 11.5 (a) Specific capacitance vs. current density for the as-prepared...Figure 11.6 (a) Cyclic voltammogram (CV) curves of SCs based on FS-ACF grown...Figure 11.7 (a) XRD patterns of MnO₂ power heat-treated at different tempera...Figure 11.8 (a) XRD pattern of RuO₂ thin film on glass. (b) Specific capacit...Figure 11.9 Specific capacitance variation of RuO₂ electrode at different sc...Figure 11.10 (a) XRD pattern of the deposited RuO₂ film on the stainless ste...Figure 11.11 (a) XRD patterns of the Ru_1−yCr_yO₂•xH₂O drying and firing...Figure 11.12 (a, b) SEM images of amorphous Ru_1−yCr_yO₂/TiO₂ nanotube c...Figure 11.13 (a) Discharge capacitance variation at different current densit...Figure 11.14 (a) SEM image, (b) XRD pattern, and (c) TED pattern of the RuO₂ Figure 11.15 TEM images of pure MnO₂ (a), pure SWNT (b), and MnO₂:20 wt% SWN...Figure 11.16 (a) Schematic illustration of the fabrication of amorphous MnO₂ Figure 11.17 Atomic model of the CoS₂ with (a) amorphous and (b) crystalline...Figure 11.18 (a) Schematic illustration of the formation process of amorphou...Figure 11.19 SEM images of (a) the GCNT/CP support and (b) the MoS_x CNT/CP. ...Figure 11.20 (a) XRD pattern of amorphous CoMoS₄. Ratio capacitances of the ...Figure 11.21 (a, b) TEM images of NiCo₂S₄@NiCo_xS_y. (c) Areal capacitance of ...Figure 11.22 (a) Illustration of the formation process of N0, N300, N600, an...

12 Chapter 12Figure 12.1 Schematic illustration of basic mechanism of a semiconductor pho...Figure 12.2 Schematic diagram of photocatalytic reactor. Source: Reproduced ...Figure 12.3 Proposed photocatalysis processes. Source: Reproduced with permi...Figure 12.4 (a) Surface photovoltage spectroscopy of the as-synthesized amor...Figure 12.5 (a) Photocatalytic activity of CdSe NCs and CdSe/a-TiO₂ at varyi...Figure 12.6 The schematic diagram of photocatalytic hydrogen evolution over ...Figure 12.7 Photo-oxidation (R + h⁺ → O) and possible electron–hole recombin...Figure 12.8 Schematic illustration shows the comparison of a photoelectroche...Figure 12.9 (a) Time-dependent amounts and (b) the average rate of photocata...Figure 12.10 Possible mechanism of photocatalytic H₂ evolution over Ni/g-C₃NFigure 12.11 TPV of HN-400,HN-500, and HN-600 before and after (sample name ...

13 Chapter 13Figure 13.1 (a–c) Synthesis process of amorphous alloy fibers and (d) stress...Figure 13.2 (a–c) Schematic diagram of MGs preparation equipment; (d, e) Hig...Figure 13.3 (a) The synthesis process of nano-amorphous alloy through FIB; (...Figure 13.4 (a) Schematic diagram of in situ TEM mechanics test device; (b) ...Figure 13.5 (a–d) TEM images and the corresponding selected-area diffraction...Figure 13.6 (a–c) The corresponding high resolution transmission electron mi...Figure 13.7 (a) Schematic image of the miniature fabrication process based o...Figure 13.8 TEM images of amorphous silica nanowires stretched at (a) 0% and...Figure 13.9 (a) Experimental and reverse Monte–Carlo simulation radial distr...Figure 13.10 (a, b) Si–O–Si and O–Si–O bond angle distribution at different ...Figure 13.11 TEM images of an amorphous SiC nanowire for the first (a−d) and...Figure 13.12 (a) The stress–strain curves of Mg-based supra-nanometre-sized ...Figure 13.13 The HRTEM image of dual-phase nanostructuring; the inset is the...Figure 13.14 (a) Schematic of shear band expansion in magnesium-based supra-...Figure 13.15 (a–c) Low-magnification TEM, SEAD, and HRTEM images of C-ZrO₂ N...Figure 13.16 (a) Stress−strain curves for the ZrO₂ NWs with different crysta...Figure 13.17 (a) SEM image of Zr–Ti–Cu–Ni–Be amorphous alloy with micro/nano...Figure 13.18 (a, b) SEM images of amorphous alloy with different amounts of ...Figure 13.19 (a) Stress–strain curves of high compressive plastic amorphous ...Figure 13.20 (a) Formation of dimple during fracture and (b) toughness of th...Figure 13.21 (a) Stress–strain curves of amorphous alloy with/without micro ...Figure 13.22 (a) TEM image showing the ultrathin layered morphology of [email protected] 13.23 Morphology of Si₃N₄–Ti–Ag composites (a) and the morphology of ...Figure 13.24 SEM image showing the lamellar (a, c) and brick-and-mortar (b, ...Figure 13.25 (a) MgK-edge XANES and (b) k²-weighted EXAFS spectra. (c) FeK-e...Figure 13.26 (a) Optical image of human tooth; (b) the optical dark-field im...Figure 13.27 Mechanical properties of the tested SCC mixes. (a) compressive ...Figure 13.28 (a) TEM image of the ZrO₂ particle embedded in the amorphous ma...Figure 13.29 Hardness of hot-pressed composite alloy samples of amorphous Mg