简介: |
教育经历
2009-2013:西南民族大学:应用化学专业;学士学位
2014-2019:太原理工大学:化学工程与技术专业;硕博连读;博士学位
发表论文
1.Wang, S.; Zheng, Z.; He, B.; Sun, C.; Li, X.; Wu, X.; An, X.; Xie, X., Gemini quaternary ammonium salt cationic surfactant-assisted hydrothermal synthesis: An effective way to tune the textural properties of zeolite and the acidity of Beta molecular sieves. Applied Organometallic Chemistry 2018, 32 (3), e4145; (SCI检索,三区,IF:3.581)
2. Wang, S.; He, B.; Tian, R.; Sun, C.; Dai, R.; Li, X.; Wu, X.; An, X.; Xie, X., Ni-hierarchical Beta zeolite catalysts were applied to ethanol steam reforming: Effect of sol gel method on loading Ni and the role of hierarchical structure. Molecular Catalysis 2018, 453, 64-73; (SCI检索,二区,IF: 4.397)
3. Wang, S.; He, B.; Tian, R.; Sun, C.; Dai, R.; Li, X.; Wu, X.; An, X.; Xie, X., Synthesis and catalytic performance of hierarchically structured MOR zeolites by a dual-functional templating approach. Journal of Colloid and Interface Science 2018, 527, 339-345. (SCI检索,二区,IF: 5.091)
4. Wang, S.; Tian, R.; He, B.; Dai, R.; Li, X.; Wu, X.; An, X.; Xie, X. The success of a dual-functional templating for synthesizing hierarchical analcime zeolite. Applied Organometallic Chemistry, 2019(SCI检索,三区,IF:3.581)
5.C. Sun, Z. Zheng, S. Wang, X. Li, X. Wu, X. An, X. Xie, Yolk-shell structured Pt-CeO 2 @Ni-SiO 2 as an efficient catalyst for enhanced hydrogen production from ethanol steam reforming, Ceramics International, 44 (2018) 1438-1442. (SCI检索,二区,IF: 2.882)
6.R. Dai, Z. Zheng, C. Sun, X. Li, S. Wang, X. Wu, X. An, X. Xie, Pt nanoparticles encapsulated in a hollow zeolite microreactor as a highly active and stable catalyst for low-temperature ethanol steam reforming, Fuel, 214 (2018) 88-97. (SCI检索,二区,IF: 4.908)
7. Z. Zheng, C. Sun, R. Dai, S. Wang, X. Wu, X. An, Z. Wu, X. Xie, Ethanol Steam Reforming on Ni-Based Catalysts: Effect of Cu and Fe Addition on the Catalytic Activity and Resistance to Deactivation, Energy & Fuels, 31 (2017) 3091-3100. (SCI检索,二区,IF:3.024)
8. Z. Zheng, C. Sun, R. Dai, S. Wang, X. Wu, X. An, X. Xie, Organotemplate-free synthesis of hollow Beta zeolite supported Pt-based catalysts for low-temperature ethanol steam reforming, Catalysis Science & Technology, 6 (2016) 6472-6475. (SCI检索,二区,IF: 5.365)
9. Z. Zheng, D. Yang, T. Li, X. Yin, S. Wang, X. Wu, X. An, X. Xie, A novel BEA-type zeolite core–shell multiple catalyst for hydrogen-rich gas production from ethanol steam reforming, Catalysis Science & Technology, 6 (2016) 5427-5439. (SCI检索,二区,IF: 5.365)
10. X. Li, Z. Zheng, C. Sun, Wang, S. R. Dai, Wu, X. An, X. Xie. Preparation and Characterigation of Core-Shell Composite Zeolite BEA@MFI and their Catalytic Properties in ESR, CATALYSIS LETTERS,(major revision) (SCI检索,三区,IF: 4.397)
11.贺博,梁海峰,王诗瑶等. 渗透率对天然气水合物降压开采影响的数值模拟[J]. 太原理工大学学报(增刊).
12.孙 晨,郑子良,李 星,王诗瑶,吴 旭,安 霞,谢鲜梅,Pt-Ni 双金属催化剂的制备及其乙醇水蒸气重整制氢催化性能研究,太原理工大学学报,49(2018)669-675
专利情况
一种微-介孔结构Beta分子筛的制备方法 ZL2016105448719(专利:已授权,第二发明人)
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