Intermetallic PtSn Nanosheets with p–d Orbital Hybridization for Selective Hydroxylamine Electrosynthesis
Yongping Li, Jingmin Ge, Jiawei Zhu, Guoxuanzi Huang, Chenyang Liu, Yongheng Ge, Zhenni Wang, Lei Dai, Hongpo Liu
Abstract
The electrocatalytic nitrate reduction to hydroxylamine (NH 2 OH) is a challenging catalytic process that has gained significant attention. However, its performance is hindered by the low selectivity of the electrocatalysts. Here, intermetallic PtSn nanosheets with p–d orbital hybridization have been synthesized, which significantly enhances the performance of electrocatalytic nitrate reduction to NH 2 OH. The Faradaic efficiency of NH 2 OH reaches a maximum of 82.83 ± 1.55% at −0.10 V versus the reversible hydrogen electrode (vs RHE), and the yield of NH 2 OH achieves 6.15 ± 0.32 mmol h –1 mg cat –1 at −0.25 V vs RHE. Mechanistic studies reveal that p–d orbital hybridization between p-block Sn and d-block Pt effectively enhances nitrate adsorption and NH 2 OH desorption to boost electrochemical NH 2 OH synthesis. Given their excellent performance in the electrochemical synthesis of NH 2 OH, PtSn nanosheets are utilized as the cathode in an alkaline-acid hybrid Zn–NO 3 – battery to facilitate the production of NH 2 OH, achieving an NH 2 OH FE of 80.42%.