Multifunctional Nanomaterials for Energy Applications.

Among all oxides, based on: (i) chemical compatibility of the supporting material with molten Li SB 4 sb (OH) SB 3 sb Br; (ii) anti-leakage effectiveness and maximum salt loading; and (iii) thermal and microstructural properties and stability of Li SB 4 sb (OH) SB 3 sb B, MgO nanoparticles were found the most promising oxide also due to the fact that all of the other oxides studied showed more or less pronounced upon heating and upon cycling conditions. In the last few decades, global energy requirements have grown exponentially, and increased demand is expected in the upcoming decades. Traditional energy resources have remarkably impacted energy production so far, but the use of renewable energy sources has constantly increased and is gradually substituting fossil fuels. Orbaek White et al. [[24]] reported the growth of multi-walled car-bon nanotubes (MWCNTs) by the liquid injection chemical vapor deposition (LI-CVD) method at 780 °C from toluene-loaded polystyrene (PS) with different amounts of PS in the presence of ferrocene used as a catalyst. [Extracted from the article]