عنوان المقالة:Synthesis of ammonia from water and nitrogen using a composite cathode based on La0.6Ba0.4Fe0.8Cu0.2O 3-δ-Ce0.8Gd 0.18Ca 0.02O2-δ Synthesis of ammonia from water and nitrogen using a composite cathode based on La0.6Ba0.4Fe0.8Cu0.2O 3-δ-Ce0.8Gd 0.18Ca 0.02O2-δ
إبراهيم علي أحمد عمار | Ibrahim Ali Ahmed Amar | 15050
- نوع النشر
- مجلة علمية
- المؤلفون بالعربي
- Ibrahim Amar
- المؤلفون بالإنجليزي
- Ibrahim Amar
- الملخص العربي
- Carbon-free electrochemical synthesis of ammonia is a promising technology for CO2 emission reduction. This study aims to explore the electrocatalytic activity of A-site Ba-doped perovskite cathode catalyst (La0.6Ba0.4Fe0.8Cu0.2O3-δ, LBFCu) for ammonia synthesis from water and nitrogen. LBFCu was prepared via the sol-gel method using combined EDTA-citrate complexing agents and characterized by X-ray diffraction (XRD) and scanning electron microscope (SEM). Ammonia was successfully synthesised from water and nitrogen under atmospheric pressure, and LBFCu mixed with Ce0.8Gd0.18Ca0.02O2-δ (CGDC) was used as a cathode. When a voltage was applied to the cell containing CGDC-carbonate composite solid electrolyte, ammonia formation was observed at 375, 400, 425 and 450 °C. At 400 °C and 1.4 V, the maximum rate of ammonia production was achieved at 4.0×10-11 mol s-1 cm-2, which corresponds to Faradaic efficiency of ~ 0.06 % at the current density of 19 mA cm-2. According to the findings, the synthesis of ammonia directly from water and nitrogen may be considered a promising green synthesis technology.
- الملخص الانجليزي
- Carbon-free electrochemical synthesis of ammonia is a promising technology for CO2 emission reduction. This study aims to explore the electrocatalytic activity of A-site Ba-doped perovskite cathode catalyst (La0.6Ba0.4Fe0.8Cu0.2O3-δ, LBFCu) for ammonia synthesis from water and nitrogen. LBFCu was prepared via the sol-gel method using combined EDTA-citrate complexing agents and characterized by X-ray diffraction (XRD) and scanning electron microscope (SEM). Ammonia was successfully synthesised from water and nitrogen under atmospheric pressure, and LBFCu mixed with Ce0.8Gd0.18Ca0.02O2-δ (CGDC) was used as a cathode. When a voltage was applied to the cell containing CGDC-carbonate composite solid electrolyte, ammonia formation was observed at 375, 400, 425 and 450 °C. At 400 °C and 1.4 V, the maximum rate of ammonia production was achieved at 4.0×10-11 mol s-1 cm-2, which corresponds to Faradaic efficiency of ~ 0.06 % at the current density of 19 mA cm-2. According to the findings, the synthesis of ammonia directly from water and nitrogen may be considered a promising green synthesis technology.
- تاريخ النشر
- 08/11/2022
- الناشر
- Journal of Electrochemical Science and Engineering
- رقم المجلد
- رقم العدد
- ISSN/ISBN
- 1847-9286
- رابط DOI
- https://doi.org/10.5599/jese.1535
- رابط الملف
- تحميل (0 مرات التحميل)
- رابط خارجي
- https://pub.iapchem.org/ojs/index.php/JESE/article/view/1535
- الكلمات المفتاحية
- Ammonia production, electrosynthesis, electrocatalyst, perovskite oxide, oxide-carbonate composite electrolyte