性别: 男联系地址：beat365亚洲体育在线
梅陇路130号，上海市，邮编：200237
E-mail: zhoushenghu@ecust.edu.cn
教育背景:
1989.09 - 1993.07：华中科技大学化学系（原华中理工大学），应用化学专业，学士；
1993.09 - 1996.07：四川大学化学系，有机化学专业，硕士；
2003.01 – 2007.05：美国马里兰大学化学与生物化学系，材料化学专业，博士
2007.05 – 2008.11：美国能源部橡树岭国家实验室纳米科学中心，博士后
工作经历:
1996.07 - 2002.07：中石化上海石油化工研究院催化四部，工程师, 课题组长；
2009.03 - 2015.06：中科院宁波材料技术与工程研究所，研究员，课题组长，博士生导师；
2015.07 – 至今：beat365亚洲体育在线，教授/博士生导师；
主要科研项目、方向与获奖:
        本课题组长期从事工业多相催化剂的研制，主持和参与了中石化多项课题，包括醋酸乙烯催化剂、丙烯腈催化剂以及裂解汽油选择性加氢催化剂的研制。作为第二发明人开发的裂解汽油一段选择性加氢催化剂已在镇海炼化裂解汽油加氢装置、天津大乙烯裂解汽油加氢等多套装置中应用，取得了良好的经济效益。承担了科技部国际合作专项“煤代油的烯烃转化制丙烯技术合作研究与开发”，已完成宁波富德能源有限公司9万吨/年丙烯装置工业侧线实验；主持了多项工业加氢催化剂研制课题，包括“顺丁烯二酸二甲酯选择性加氢制备丁二酸二甲酯催化剂研制”、“煤焦油加氢制备汽、柴油调和组分工艺技术的开发和高效加氢催化剂的研制”、“催化加氢脱氯清洁处理多氯苯”等项目，与宁波远东化工集团合作开发的煤焦油加氢制备清洁燃料油技术已工业化，已建和在建5套装置年处理煤焦油能力120万吨/年。
        在可控双金属纳米颗粒的合成及其在多相催化中的应用进行了长期的探索，主要科研方向如下：1）合成双金属核@壳型、杂化多聚体以及合金纳米催化剂，通过调控双金属分布优化加氢反应的活性和选择性；2）通过原位处理双金属纳米颗粒合成金属-氧化物强相互作用纳米催化剂提高催化剂抗凝聚能力和长期稳定性；3）合成介孔掺杂烯烃岐化催化剂，调控催化剂活性组分和介孔尺度优化催化剂性能。以上研究成果发表在Angew. Chem. Int. Ed.、J. Am. Chem. Soc.、Adv. Funct. Mater.、ACS Catal.、Langmuir、J. Phys. Chem. C.、Catal. Sci. Technol.、ChemPhysChem.、RSC Adv.等知名杂志上。
        2006年获得美国马里兰大学杰出发明奖；2007年获得美国马里兰大学化学系杰出研究奖；2007年获得第十届中国专利优秀奖（排名第二）；2008年获得第五届上海市发明创造专利奖（排名第二）；2012入选 浙江省“千人计划”以及宁波市“3315”人才。
 
代表性论文:
1. Zhang P., Hu, Y., Li, B., Zhang, Q., Zhou, C., Yu, H., Zhang, X., Chen, L.,* Eichhorn., B.,* Zhou., S.* “Kinetically Stabilized Pd@Pt Core-shell Octahedral Nanoparticles with Thin Pt Layers for Enhanced Catalytic Hydrogenation Performance”, ACS Catal., 2015, 5, 1335-1343.
2. Liu, H., Tao, K., Xiong, C.,* Zhou, S.* “Controlled Synthesis of Pd–NiO@SiO2 Mesoporous Core–shell Nanoparticles and Their Enhanced Catalytic Performance for P-chloronitrobenzene Hydrogenation with H2”, Catal. Sci. Technol., 2015, 5, 405-414. 
3. Lin, C., Tao, K., Yu, H., Hua, D.,* Zhou, S.* “Enhanced Catalytic Performance of Molybdenum Doped Mesoporous SBA-15 for Metathesis of 1-Butene and Ethene to Propene”, Catal. Sci. Technol., 2014, 4, 4010-4019. 
4. Hu, B., Liu, H., Tao, K., Xiong, C.,* Zhou, S.* “Highly Active Doped Mesoporous KIT-6 Catalysts for Metathesis of 1-Butene and Ethene to Propene: The Influence of Neighboring Environment of W Species”, J. Phys. Chem. C, 2013, 117, 26385–26395.
5. Wang, X., Yu, H., Hua, D.,* Zhou, S.* “Enhanced Catalytic Hydrogenation Activity and Selectivity of Pt-MxOy/Al2O3 (M = Ni, Fe, Co) Heteroaggregate Catalysts by in Situ Transformation of PtM Alloy Nanoparticles”, J. Phys. Chem. C, 2013, 117, 7294-7302.
6. Hu, Y., Tao, K., Wu, C., Zhou, C., Yin, H.,* Zhou, S.* “Size-Controlled Synthesis of Highly Stable and Active Pd@SiO2 Core–Shell Nanocatalysts for Hydrogenation of Nitrobenzene”, J. Phys. Chem. C, 2013, 117, 8974-8982.
7. Xu, W., Lin, C., Liu, H., Yu, H., Tao, K.,* Zhou, S.* “Tandem Catalytic Conversion of 1-Butene and Ethene to Propene over Combined Mesoporous W-FDU-12 and MgO Catalysts”, RSC Adv., 2015, 5, 23981-23989.
8. Liu, H., Yu, H., Xiong, C., Zhou, S.* “Architecture Controlled PtNi@mSiO2 and Pt-NiO@mSiO2 Mesoporous Core-shell Nanocatalysts for Enhanced p-Chloronitrobenzene Hydrogenation Selectivity”, RSC Adv., 2015, 5, 20238-20247. 
9. Liu, H., Tao, K.,* Zhang, P., Xu, W., Zhou, S.* “Enhanced catalytic performance for metathesis reactions over ordered tungsten and aluminum co-doped mesoporous KIT-6 catalysts”, New J. Chem., 2015，DOI: 10.1039/c5nj01415h.
10. Zhou, S., Ma, Z., Eichhorn, B., Dai, S. “Low-Temperature Solution-Phase Synthesis of NiAu Alloy Nanoparticles via Butyllithium Reduction: Influences of Synthesis Details and Application as the Precursor to Active Au-NiO/SiO2 Catalysts Through Proper Pretreatments”, J. Phys. Chem. C, 2009, 113, 5758-5765.
11. Zhou, S., Ma, Z., Bake, G., Rondinone, A., Zhu, Q., Luo, H., Wu, Z., Dai, S. “Self-Assembly of Metal-Oxide Nanoparticles into Hierarchically Patterned Porous Architectures Using Ionic Liquid/Oil Emulsions”, Langmuir, 2009, 25, 7229-7233.
12. Zhou, S., Jackson, G., Eichhorn, B. “Architectural Effects on the Catalytic Activity of Au-Pt Bimetallic Nanostructures: Alloy and Contact Aggregate Particles for CO Tolerant Hydrogen Activation”, Adv. Funct. Mater.，2007, 17, 3099–3104.
13. Zhou, S., McIlwrath, K., Jackson, G., Eichhorn, B. “Enhanced CO Tolerance for Hydrogen Activation in Au-Pt Dendritic Heteroaggregate Nanostructures”, J. Am. Chem. Soc., 2006, 128, 1780 – 1781.
14. Zhou, S., Varughese B., Eichhorn B., Jackson G., McIlwrath, K. “Pt-Cu Core-Shell and Alloy Nanoparticles for Heterogeneous NOx Reduction: Anomalous Stability and Reactivity of a Core-Shell Nanostructure”, Angew. Chem. Int. Ed., 2005, 44, 4539-4543.