Greatly Enhanced Electrocatalytic N₂ Reduction on TiO₂ via V Doping

Abstract: As a sustainable alternative technology to the Haber–Bosch process, electrochemical N2 reduction offers the hope of directly converting N2 to NH3 at ambient conditions. However, its efficiency greatly depends on screening high‐active electrocatalysts for the N2 reduction reaction (NRR). Here, the recent experimental finding that V is an effective dopant to greatly improve the NRR performances of TiO2 toward ambient N2‐to‐NH3 fixation with excellent selectivity is reported. In 0.5 m anhydrous lithium perchlorat… Show more

“…TiO 2 is highly adaptable as a semiconductor catalyst because of its long‐term thermodynamic stability, natural abundance, and nontoxicity . Recent studies have demonstrated that TiO 2 with oxygen defects has good electrocatalytic activity for the NRR, and heteroatoms (B, C, V, and Zr,) are effective dopants to enhance the NRR performances of TiO 2 catalysts. However, Ti‐based catalysts that simultaneously achieve a large NH 3 yield with a high Faradaic efficiency (FE) are not available thus far.…”

Greatly Improving Electrochemical N₂ Reduction over TiO₂ Nanoparticles by Iron Doping

“…TiO 2 is highly adaptable as a semiconductor catalyst because of its long‐term thermodynamic stability, natural abundance, and nontoxicity . Recent studies have demonstrated that TiO 2 with oxygen defects has good electrocatalytic activity for the NRR, and heteroatoms (B, C, V, and Zr,) are effective dopants to enhance the NRR performances of TiO 2 catalysts. However, Ti‐based catalysts that simultaneously achieve a large NH 3 yield with a high Faradaic efficiency (FE) are not available thus far.…”

Greatly Improving Electrochemical N₂ Reduction over TiO₂ Nanoparticles by Iron Doping

“…Interestingly, the results were very high when NRR was carried out in 0.5 m LiClO 4 electrolyte. [32] At −0.4 V, V-TiO 2 exhibited efficiency as high as 15.3%. The excellent performance was attributed to increased defects, synergetic effects between Ti and V and change in electronic conductivity of TiO 2 caused by V doping.…”

Exploration and Investigation of Periodic Elements for Electrocatalytic Nitrogen Reduction

“…Nonetheless, the expensiveness limits its broad applications. Therefore, much attention has focused on noble‐metal‐free catalysts . Rare‐earth elements have received research attention in the past few years due to their potential applications in catalysis fields, optics, biological labeling, etc.…”

DyF₃: An Efficient Electrocatalyst for N₂ Fixation to NH₃ under Ambient Conditions