Unveiling the synthesis of CuCe2(MoO4)4 nanostructures and its physico-chemical properties on electrochemical hydrogen storage

“…A mixed metal oxide (MMO) also known as complex metal oxide (CMO) is an important type of metal oxide with a wide range of applications. Because of their distinct structures and characteristics, MMOs have lately been studied for hydrogen storage applications [111,112] . Thus far, researchers have utilized conductive metal oxide to improve the hydrogen storage of particularly metal hydrides.…”

“…For instance, cobalt (Co) was reported to increase the cost of the process, making it unsuitable for use in vehicle applications. Furthermore, during the charge/discharge cycle, Co has restricted the ability of the storing material to rapidly quench or decline its hydrogen absorption capacity [111–113] …”

“…and structures (perovskites, garnets, spinels, etc.) have been studied as hydrogen sorption materials [112] . Among the MMOs reported so far, the most exciting materials in hydrogen storage systems are nanosized spinels with the general formula AB 2 O 4 , because of their distinct physicochemical features.…”

“…Because of their distinct structures and characteristics, MMOs have lately been studied for hydrogen storage applications. [111,112] Thus far, researchers have utilized conductive metal oxide to improve the hydrogen storage of particularly metal hydrides. It should be mentioned that MMO has been used to enhance the storage capacity of metal hydrides in a solid-state form and is commonly utilized in hand tools, automobiles, and portable electronics.…”

“…Furthermore, during the charge/discharge cycle, Co has restricted the ability of the storing material to rapidly quench or decline its hydrogen absorption capacity. [111][112][113] Accordingly, the materials can store hydrogen in a solidstate form and have a capacity of 6.5 wt. % which is the optimal aim for car applications, according to the DOE.…”

Potential Applications of Metal‐Doped Nanomaterials for Enhancing Solid‐State Hydrogen Storage

“…A mixed metal oxide (MMO) also known as complex metal oxide (CMO) is an important type of metal oxide with a wide range of applications. Because of their distinct structures and characteristics, MMOs have lately been studied for hydrogen storage applications [111,112] . Thus far, researchers have utilized conductive metal oxide to improve the hydrogen storage of particularly metal hydrides.…”

“…For instance, cobalt (Co) was reported to increase the cost of the process, making it unsuitable for use in vehicle applications. Furthermore, during the charge/discharge cycle, Co has restricted the ability of the storing material to rapidly quench or decline its hydrogen absorption capacity [111–113] …”

“…and structures (perovskites, garnets, spinels, etc.) have been studied as hydrogen sorption materials [112] . Among the MMOs reported so far, the most exciting materials in hydrogen storage systems are nanosized spinels with the general formula AB 2 O 4 , because of their distinct physicochemical features.…”

“…Because of their distinct structures and characteristics, MMOs have lately been studied for hydrogen storage applications. [111,112] Thus far, researchers have utilized conductive metal oxide to improve the hydrogen storage of particularly metal hydrides. It should be mentioned that MMO has been used to enhance the storage capacity of metal hydrides in a solid-state form and is commonly utilized in hand tools, automobiles, and portable electronics.…”

“…Furthermore, during the charge/discharge cycle, Co has restricted the ability of the storing material to rapidly quench or decline its hydrogen absorption capacity. [111][112][113] Accordingly, the materials can store hydrogen in a solidstate form and have a capacity of 6.5 wt. % which is the optimal aim for car applications, according to the DOE.…”

Potential Applications of Metal‐Doped Nanomaterials for Enhancing Solid‐State Hydrogen Storage

Synthesis, characterization and electrochemical evaluation of hydrogen storage capacity of graphitic carbon nitride and its nanocomposites in an alkaline environment

Effect of copper on improving the electrochemical storage of hydrogen in CeO2 nanostructure fabricated by a simple and surfactant-free sonochemical pathway