职称：助理研究员(金山特聘教授B类)

　地址：江苏省镇江市学府路301号

　Telephone：17706103235

　Fax：

　E-mail：houssci@gmail.com

　 研究方向：

金属纳米结构的光学性质及生物应用

基于微生物或其产物的功能材料

　 教育经历：

2021-至今，江苏大学 新材料研究院，助理研究员（金山特聘教授B类）

2016-2021，新加坡南洋理工大学 化学与生物医学工程学院，博士后

2009-2015，中国科学院 国家纳米科学中心，物理化学，博士

2005-2009，山东大学 材料科学与工程学院，材料科学与工程，学士

　 教学经历：

　 项　　目：

　 奖　　项：

　 学术组织和学术活动：

　 论文专著专利：

主要论文：

1. Hou, S.; Chen, Y.; Lu, D.; Xiong, Q.; Lim, Y.; Duan, H., A Self-Assembled Plasmonic Substrate for Enhanced Fluorescence Resonance Energy Transfer. Advanced Materials 2020, 1906475.

2. Ge, J.; Ding, B.; Hou, S. (共同一作); Luo, M.; Nam, D.; Duan, H.; Gao, H.; Lam, Y. C.; Li, H., Rapid Fabrication of Complex Nanostructures Using Room-Temperature Ultrasonic Nanoimprinting. Nature Communications 2021, 12, 3146.

3. Hou, S.; Mahadevegowda, S. H.; Lu, D.; Zhang, K.; Chan-Park, M. B.; Duan, H., Metabolic Labeling Mediated Targeting and Thermal Killing of Gram-Positive Bacteria by Self-Reporting Janus Magnetic Nanoparticles. Small 2020, 2006357.

4. Hou, S.; Hu, X.; Wen, T.; Liu, W.; Wu, X., Core–Shell Noble Metal Nanostructures Templated by Gold Nanorods. Advanced Materials 2013, 25, 3857–3862.

5. Duan, B.; Hou, S. (共同一作); Wang, P.; Chen, Y.; Xiong, Q.; Das, P.; Duan, H., Chemical Processing of Interfacially Assembled Metal Nanowires for Surface-Enhanced Raman Scattering Detection of Food Contaminants. Journal of Raman Spectroscopy 2021, 52, 532–540.

6. Hou, S.; Mahadevegowda, S. H.; Mai, V. C.; Chan-Park, M. B.; Duan, H., Glycosylated Copper Sulfide Nanocrystals for Targeted Photokilling of Bacteria in the Near-Infrared II Window. Advanced Therapeutics 2019, 2, 1900052.

7. Mahadevegowda, S. H.; Hou, S. (共同一作); Ma, J.; Keogh, D.; Zhang, J.; Mallick, A.; Liu, X.-W.; Duan, H.; Chan-Park, M. B., Raman-Encoded, Multivalent Glycan-nanoconjugates for Traceable Specific Binding and Killing of Bacteria. Biomaterials Science 2018, 6, 1339–1346.

8. Hou, S.; Yan, J.; Hu, Z.; Wu, X., Enhancing the Plasmonic Circular Dichroism by Entrapping Chiral Molecules at the Core-Shell Interface of Au@Ag Nanocrystals. Chemical Communications 2016, 52, 2059–2062.

9. Hou, S.; Zhang, H.; Yan, J.; Ji, Y.; Wen, T.; Liu, W.; Hu, Z.; Wu, X., Plasmonic Circular Dichroism in Side-by-Side Oligomers of Gold Nanorods: the Influence of Chiral Molecule Location and Interparticle Distance. Physical Chemistry Chemical Physics 2015, 17, 8187–8193.

10. Hou, S.; Wen, T.; Zhang, H.; Liu, W.; Hu, X.; Wang, R.; Hu, Z.; Wu, X., Fabrication of Chiral Plasmonic Oligomers Using Cysteine-Modified Gold Nanorods as Monomers. Nano Research 2014, 7, 1699–1705.