Magnetron sputtering of platinum on nitrogen-doped polypyrrole carbon nanotubes as an efficient and stable cathode for lithium–carbon dioxide batteries

Abstract: As an emerging green energy storage and conversion system, rechargeable Li-CO2 batteries have caused extensive research due to their ultra-high energy density and their significant role in greenhouse gas CO2...

“…In some cases, substrates having an ordered 3D structure, including composite substrates, are used. For example, platinum nanoparticles were deposited by magnetron sputtering on vertically aligned carbon nanofibers (CNF) obtained on a flat substrate (methanol oxidation reaction [42]), TiO 2 /CNT [16], on a substrate made of a network of nitrogen-doped CNT (cathode catalyst for CO 2 reduction for Li-CO 2 batteries [43]). However, as mentioned above, an important direction of electrochemistry remains the production of catalysts on dispersed carriers.…”

Magnetron Sputtering Synthesis of Electrocatalysts

“…In some cases, substrates having an ordered 3D structure, including composite substrates, are used. For example, platinum nanoparticles were deposited by magnetron sputtering on vertically aligned carbon nanofibers (CNF) obtained on a flat substrate (methanol oxidation reaction [42]), TiO 2 /CNT [16], on a substrate made of a network of nitrogen-doped CNT (cathode catalyst for CO 2 reduction for Li-CO 2 batteries [43]). However, as mentioned above, an important direction of electrochemistry remains the production of catalysts on dispersed carriers.…”

Magnetron Sputtering Synthesis of Electrocatalysts