详细资料

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教育/工作经历

2024. 01—至今 北京林业大学 材料科学与技术学院 副教授

2021. 07—2023. 12 北京林业大学 材料科学与技术学院 讲师

2021. 07—2024. 06 北京林业大学 生物学 博士后

        2015. 09—2021. 06 北京林业大学 林产化学加工工程 博士

主讲课程

本科生课程：林特产品创新设计与制造、天然高分子材料与改性、天然产物制药工程等

研究生课程：林产化学加工专题讲座

科研工作及成果

主要从事木质素催化转化制备可再生材料及化学品研究。近五年，先后主持国家自然科学基金（青年项目）、中国博士后科学基金（站中特别资助/面上项目）等科研项目。以第一/通讯作者在Nat. Commun. (2), Nat. Sustain. (news & views), ACS Catal., Green Chem., Trends Chem., Chem. Eng. J.等期刊发表论文15篇，IF>15论文5篇，ESI高被引论文2篇，文章引用超过1115次（基于google scholar数据）。授权国家发明专利5件，参编中文专著1部。

奖励及荣誉称号

国家自然科学基金青年项目

中国博士后科学基金特别资助（站中）

中国博士后科学基金 面上项目

首届北京林业大学“勉励杯”大学生创新创业大赛 优秀指导教师

北京林业大学优秀班主任

北京林业大学教育教学改革与研究优秀论文

学术/社会兼职

中国林学会会员

北京化学会会员

Nature Communications, ACS Catalysis, Green Chemistry等期刊审稿人

学术成果展示（不超30个）

1.       Wang, S., Zhang, K., Li, H., Xiao, L. P., & Song, G. (2021). Selective hydrogenolysis of catechyl lignin into propenylcatechol over an atomically dispersed ruthenium catalyst. Nature Communications, 12(1), 416.

2.       Liu, Z., Li, H., Gao, X., Guo, X., Wang, S.*, Fang, Y.*, & Song, G.* (2022). Rational highly dispersed ruthenium for reductive catalytic fractionation of lignocellulose. Nature Communications, 13(1), 4716.

3.       Wang, S., & Song, G. (2023). A pathway to bio-based aromatics. Nature Sustainability, 6(11), 1295-1296.

4.       Wang, S.*, Li, X., Fu, C., Li, H., & Song, G.* (2024). Atomically Dispersed Palladium Driving Reductive Catalytic Fractionation of Lignocellulose into Alkene-Functionalized Phenols. ACS Catalysis, 14(5), 3565-3574.

5.       Wang, S., Shen, Q., Su, S., Lin, J., & Song, G. (2022). The temptation from homogeneous linear catechyl lignin. Trends in Chemistry, 4(10), 948-961.

6.       Su, S., Cao, F. S., Wang, S.*, Shen, Q., Luo, G.*, Lu, Q., & Song, G.* (2023). Organoborane-catalysed reductive depolymerisation of catechyl lignin under ambient conditions. Green Chemistry, 25(20), 8172-8180.

7.       Du, Q., Hu, B., Shen, Q., Su, S., Wang, S.*, & Song, G.* (2024). Creating tough Mussel-Inspired underwater adhesives from plant catechyl lignin. Chemical Engineering Journal, 482, 148828.

8.       Wang, S., Su, S., Xiao, L. P., Wang, B., Sun, R. C., & Song, G. (2020). Catechyl lignin extracted from castor seed coats using deep eutectic solvents: characterization and depolymerization. ACS Sustainable Chemistry & Engineering, 8(18), 7031-7038.

9.       Wang, S., Gao, W., Li, H., Xiao, L. P., Sun, R. C., & Song, G. (2018). Selective Fragmentation of Biorefinery Corncob Lignin into p‐Hydroxycinnamic Esters with a Supported Zinc Molybdate Catalyst. ChemSusChem, 11(13), 2114-2123.

10.  Wang, S., Li, W. X., Yang, Y. Q., Chen, X., Ma, J., Chen, C., ... & Sun, R. C. (2020). Unlocking structure–reactivity relationships for catalytic hydrogenolysis of lignin into phenolic monomers. ChemSusChem, 13(17), 4548-4556.

11.  Song, W., Du, Q., Li, X., Wang, S.*, & Song, G.* (2022). Sustainable Production of Bioactive Molecules from C‐Lignin‐Derived Propenylcatechol. ChemSusChem, 15(14), e202200646.

12.  Su, S., Shen, Q., Wang, S.*, & Song, G.* (2023). Discovery, disassembly, depolymerization and derivatization of catechyl lignin in Chinese tallow seed coats. International Journal of Biological Macromolecules, 239, 124256.

13.  Fu, C., Wang, S.*, & Song, G. (2024). Efficient fractionation of corn stover using deep eutectic solvent from lignin-derived 3-phenylpropionic acid: Towards a closed-loop biorefinery. Industrial Crops and Products, 212, 118380.

14.  Wang, S., Gao, W., Xiao, L. P., Shi, J., Sun, R. C., & Song, G. (2019). Hydrogenolysis of biorefinery corncob lignin into aromatic phenols over activated carbon-supported nickel. Sustainable Energy & Fuels, 3(2), 401-408.

     15. Wang, S., Li, H., Xiao, L. P., & Song, G. (2020). Unraveling the structural         

     transformation of wood lignin during deep eutectic solvent treatment. Frontiers in 

     Energy Research, 8, 48.