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This book focuses on advanced nanomaterials for energy conversion and storage, covering their design, synthesis, properties and applications in various fields. Developing advanced nanomaterials for high-performance and low-cost energy conversion and storage devices and technologies is of great significance in order to solve the issues of energy crisis and environmental pollution. In this book, various advanced nanomaterials for batteries, capacitors, electrocatalysis, nanogenerators, and magnetic nanomaterials are presented

Technology: general issues --- porous carbon --- ternary composite --- molybdenum oxide --- molybdenum carbide --- energy storage --- Li-O2 batteries --- composite --- ORR --- OER --- Nb2O5 --- Nb4N5 --- heterostructure --- lithium-sulfur batteries --- catalyst --- TiN/Ta2O5 --- multidimensional carbon --- manipulation --- two-dimension amorphous --- component interaction --- geometric configuration --- electrochemistry --- self-powered --- sports monitoring --- hydrogel --- hybrid nano-generator --- janus --- MXenes --- magnetic properties --- DFT --- MXene --- nitrogen reduction --- electrocatalysis --- Gibbs free energy --- doped graphene --- oxygen reduction reaction --- phosphorus-doped --- codoped --- neutron diffraction --- exchange-bias --- magnetocaloric effect --- spin–orbit torque --- perpendicular magnetic anisotropy --- perpendicular effective field --- zero-field switching --- N/P/Fe co-doped carbon --- self-templating synthesis --- 3D porous structure --- oxygen reduction reaction electrocatalysts --- nanomagnets --- Co nanorods --- solvothermal route --- alcohol–thermal method --- magnetic interaction --- single-atom catalyst --- Au/WSSe --- tensile strain --- n/a --- spin-orbit torque --- alcohol-thermal method