Cu-doping-induced modulation of crystal structure and magnetic anisotropy in Dy3CuxFe5-xO12 garnet nanocrystals

“…Nanomaterials in ASSBs have been disregarded compared to liquid electrolyte batteries. 2,26 Nanomaterials are inappropriate for energy storage due to their high reactivity and parasitic and irreversible reactions in liquid electrolytes. ASSBs can overcome liquid parasite responses because SEs are less reactive.…”

“…Contact failure, interface side reactions, space charge layer creation, and lithium dendritic growth pose significant challenges to achieving a well-matched solid-solid electrolyte (SSE) interface. 26 Despite these obstacles, there are several promising options available. The low redox potential of −3.04 V vs. SHE and the high capacity of 3860 mA h g −1 make lithium metal anodes well-suited for high-energy lithium secondary batteries.…”

Revolutionizing energy storage: exploring the nanoscale frontier of all-solid-state batteries

“…Nanomaterials in ASSBs have been disregarded compared to liquid electrolyte batteries. 2,26 Nanomaterials are inappropriate for energy storage due to their high reactivity and parasitic and irreversible reactions in liquid electrolytes. ASSBs can overcome liquid parasite responses because SEs are less reactive.…”

“…Contact failure, interface side reactions, space charge layer creation, and lithium dendritic growth pose significant challenges to achieving a well-matched solid-solid electrolyte (SSE) interface. 26 Despite these obstacles, there are several promising options available. The low redox potential of −3.04 V vs. SHE and the high capacity of 3860 mA h g −1 make lithium metal anodes well-suited for high-energy lithium secondary batteries.…”

Revolutionizing energy storage: exploring the nanoscale frontier of all-solid-state batteries

Multifunctional covalent-organic frameworks (COFs)-2D MXenes composites for diverse applications

Covalent organic frameworks in supercapacitors: Unraveling the pros and cons for energy storage