In Situ XRD Investigation of Ni0.9M0.1O (M = Co, Ce, Mn, Zr) Nickel-Based Catalists Activation Process
| Dublin Core | PKP源数据项目 | 这个文档的源数据 | |
| 1. | 标题 | 文档的标题 | In Situ XRD Investigation of Ni0.9M0.1O (M = Co, Ce, Mn, Zr) Nickel-Based Catalists Activation Process |
| 2. | 创建者 | 作者姓名,工作单位,国家 | M. Mikhnenko; Federal Research Center Boreskov Institute of Catalysis, Siberian Branch of the Russian Academy of Science”; Novosibirsk State University |
| 2. | 创建者 | 作者姓名,工作单位,国家 | T. Afonasenko; Center of New Chemical Technologies BIC |
| 2. | 创建者 | 作者姓名,工作单位,国家 | V. Rogov; Federal Research Center Boreskov Institute of Catalysis, Siberian Branch of the Russian Academy of Science” |
| 2. | 创建者 | 作者姓名,工作单位,国家 | O. Bulavchenko; Federal Research Center Boreskov Institute of Catalysis, Siberian Branch of the Russian Academy of Science”; Novosibirsk State University |
| 3. | 主题 | 学科 | |
| 3. | 主题 | 关键词 | nickel oxide; reduction; activation; in situ XRD; TPR; modifying additives |
| 4. | 描述 | 摘要 | In this work the activation process and the effect of modifying additives on the phase composition and structure of a series of catalysts with the general composition Ni0.9M0.1O (M = Co, Ce, Mn, Zr) synthesized by co-precipitation were studied. The influence of the additives on the initial state of the samples was investigated by XRD, and their influence on the NiO reduction process was studied by in situ XRD and TPR-H2. It was shown that the introduced modifiers influence on the structure and microstructure of the initial samples, increasing the value of the specific surface and decreasing the average size of NiO CSR. Introduction of Mn, Co leads to formation with NiO oxide of solid solutions of replacement. For Ce and Zr the release of CeO2 oxide and X-Ray-amorphous ZrOx is observed. The use of these additives leads to an increase in the temperature of NiO reduction to the metallic state compared to the massive oxide. In addition, the effect of modifying additives on the particle size of the final metal is observed. The introduction of Ce and Mn decreases the average size of the NiO CSR in 2–5 times compared to the massive NiO. |
| 5. | 出版商 | 组织机构,地点 | The Russian Academy of Sciences |
| 6. | 合作者 | 主管 | |
| 7. | 日期 | (YYYY-MM-DD) | 01.07.2023 |
| 8. | 类型 | 现状与流派 | 同行评议的文章 |
| 8. | 类型 | 类型 | |
| 9. | 格式 | 文件格式 | |
| 10. | 识别码 | 环球资源指标 | https://rjeid.com/0453-8811/article/view/660331 |
| 10. | 识别码 | Digital Object Identifier (DOI) | 10.31857/S0453881123040081 |
| 10. | 识别码 | eLIBRARY Document Number (EDN) | RREDBP |
| 11. | 源 | 期刊/会议标题 ; 卷., 期. (年) | Kinetika i kataliz; 卷 64, 编号 4 (2023) |
| 12. | 语言 | English=en | |
| 13. | 关系 | 补充文件 |
(136KB) (95KB) (975KB) (799KB) (546KB) |
| 14. | 范围 | 地理位置、年代时期、调查样本(性别、年纪等等) | |
| 15. | 权力 | 版权及权限 |
版权所有 © М.Д. Михненко, Т.Н. Афонасенко, В.А. Рогов, О.А. Булавченко, 2023 |