Novel palladium-based nanomaterials for multifunctional ORR/OER/HER electrocatalysis

Abstract: With the growing demands for sustainable energy, research on electrocatalysis is attracting more attention in the fabrication of clean energy devices (e.g., fuel cell, electrolyzer, and metal-air batteries). Oxygen reduction...

“…In addition to Pt-based nano-HER catalysts, Pd-based NMs also have excellent HER electrocatalytic properties. 93,94…”

Sub-nanometric materials for hydrogen evolution reaction

“…In addition to Pt-based nano-HER catalysts, Pd-based NMs also have excellent HER electrocatalytic properties. 93,94…”

Sub-nanometric materials for hydrogen evolution reaction

“…Determining the nature of active sites is important for designing highly active and stable ORR electrocatalysts. 203,204 Therefore, the development of in situ characterization techniques is very important to explore the active sites and reaction mechanisms of electrocatalysts. In addition, by combining these with DFT calculations, the entire electrocatalytic reaction process can be understood more clearly and accurately, and help to make practical predictions.…”

Highly efficient tungsten/molybdenum-based electrocatalysts for the oxygen reduction reaction: a review

“…95,96 By optimizing the interface interaction, the corrosion resistance and catalytic reaction efficiency of the catalyst were enhanced, and the thermal stability and oxidation resistance of the catalyst were improved to achieve an efficient and stable hydrogen evolution reaction. 97–99 These advantages make interface regulation a crucial strategy for designing catalysts with high performance and stability. The interaction between the interface can be optimized using interface control strategies, which can enhance electron transport and reactivity.…”

Design and multilevel regulation of transition metal phosphides for efficient and industrial water electrolysis