High-Performance Electrocatalytic Reduction of Nitrite to Ammonia under Ambient Conditions on a FeP@TiO 2 Nanoribbon Array.
Ailin ZhangYimei LiangXun HeXiaoya FanCongling YangLing OuyangDongdong ZhengShengjun SunZhengwei CaiYonglan LuoQian LiuSulaiman AlfaifiLi CaiHuiqing WangXuping SunPublished in: Inorganic chemistry (2023)
Electrochemical nitrite (NO 2 - ) reduction is recognized as a promising strategy for synthesizing valuable ammonia (NH 3 ) and degrading NO 2 - pollutants in wastewater. The six-electron process for the NO 2 - reduction reaction is complex and necessitates a highly selective and stable electrocatalyst for efficient conversion of NO 2 - to NH 3 . Herein, a FeP nanoparticle-decorated TiO 2 nanoribbon array on a titanium plate (FeP@TiO 2 /TP) is proposed as an efficient catalyst for NH 3 production under ambient conditions. In 0.1 M NaOH with 0.1 M NO 2 - , such a FeP@TiO 2 /TP affords a large NH 3 yield of 346.6 μmol h -1 cm -2 and a high Faradaic efficiency of 97.1%. Additionally, it demonstrates excellent stability and durability during long-term cycling tests and electrolysis experiments.
Keyphrases
- room temperature
- visible light
- quantum dots
- ionic liquid
- air pollution
- particulate matter
- nitric oxide
- reduced graphene oxide
- high throughput
- metal organic framework
- anaerobic digestion
- perovskite solar cells
- gold nanoparticles
- high resolution
- wastewater treatment
- highly efficient
- high intensity
- high density
- liquid chromatography
- carbon dioxide
- solar cells