沈晓骏

详细资料

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教育/工作经历

教育经历：

2017/09-2020/09，中国科学院化学研究所，物理化学，博士，导师：韩布兴院士

2014/09-2017/06，江南的注册网址，林产化工，硕士，导师：孙润仓教授

2010/09-2014/06，浙江农林大学，应用化学，学士

工作经历：

2020/12-2022/10，中国科学院大连化学物理研究所，博士后，合作导师：王峰研究员

2022/11-至今，江南的注册网址，材料科学与技术学院，讲师

主讲课程

科研工作及成果

近年来重点围绕木质纤维素高值化利用和相关研究，特别是木质素高效清洁分离以及木质素定向催化转化方面，建立了清洁高效的林木生物质和全组分分离方法，同时发展了木质素优先的生物质精炼体系，提出了木质素官能团定向高值化利用制备精细化学品新策略。主持中国科学院特别研究助理项目1项（60万）和博士后面上项目1项（8万）。发表SCI论文49篇，总影响因子531，H指数24，其中第一作者/通讯作者/共同第一作者在Chemical Society Reviews，Green Chemistry，Chemical Science，Bioresource Technology，Carbohydrate Polymer等SCI论文25篇，总影响因子255，其中影响因子大于10的有9篇，其中累计3篇SCI论文入选ESI高被引论文，1篇文章在生物质低共熔预处理生物质领域他引全球排行前五。受邀撰写生物质转化英文专著1章，申请中国发明专利6件。多次参加国际学术会议，并做报告3次。

奖励及荣誉称号

2021年 中国科学院大连化学物理研究所优秀博士后

2020年 梁希青年论文三等奖

2017年 江南的注册网址优秀硕士毕业论文

2016年 江南的注册网址国家奖学金

学术/社会兼职

1. 学术兼职：

担任Catalysts和Frontiers in Chemical Engineering期刊编委；Frontiers in Energy Research，Frontiers in Chemistry and Frontiers in Bioengineering and Biotechnology客座编辑，此外还担任本领域Bioresource Technology，Carbohydrate Polymer，ACS Sustainable Chemistry & Engieering，ChemSusChem等十多种SCI期刊审稿人，

1. 社会兼职：

学术成果展示（不超30个）

1. Shen X. J.,Zhang C., Han B., Wang F., (2022). Catalytic self-transfer hydrogenolysis of lignin with endogenous hydrogen: road to the carbon-neutral future.Chemical Society Reviews. 51, 1608-1628.（ESI高被引）

2. Shen X. J.,Meng Q. L., Mei Q. Q., Liu H. Z., Yang J, Song J. L., Tan D. X.,Chen B. F., Zhang Z.R., Yang G.Y., & Han. B.X. (2019). Selectively catalytic transformation of lignin with guaiacol as the only liquid product.Chemical Science, 2020, 11, 1347-1352.

3. Shen X. J.,Meng Q. L.,Mei Q. Q.,Xiang J. F., Liu H. Z., Han B. X. (2020) The production of 4-ethyltoluene via directional valorization of lignin.Green Chemistry, 2020, 22, 2191-2196.

4.Shen X. J.,Wen J. L., Mei Q. Q., Chen X., Sun, D., Yuan T. Q., Sun R. C. (2019). Facile fractionation of lignocelluloses by biomass-derived deep eutectic solvent (DES) pretreatment for cellulose enzymatic hydrolysis and lignin valorization.Green Chemistry, 21(2), 275-283.(ESI高被引，生物质低共熔预处理领域他引在全球排行前五)

5.Shen X. J., Meng Q. L., Dong M. H., Xiang J. F., Li S. P., Liu H. Z., Han B. X. (2019) Low Temperature Reverse Water-Gas-Shift Process and Transformation of Renewable Carbon Resources to Value-added Chemicals at Mild Condition.ChemSusChem, 12, 5149-5156.

6.Shen X. J.,Wang B., Huang P. L., Wen J. L., Sun R. C. (2016). Effects of aluminum chloride-catalyzed hydrothermal pretreatment on the structural characteristics of lignin and enzymatic hydrolysis.Bioresource Technology, 206, 57-64.

7.Shen X. J.,Wen J. L., Chen T. Y. Wang H. M. Mei Q. Q., Yue F. X., Yuan T. Q., Sun R. C. (2019) Structural and Morphological Transformations of Lignin Macromolecules during Bio-based Deep Eutectic Solvent (DES) Pretreatment.ACS Sustainable Chemistry & Engineering,8, 2130-2137.（ESI高被引）

8.Shen X. J.,Sun R. C. (2021) Recent advances in lignocellulose prior-fractionation for biomaterials, biochemicals, and bioenergy.Carbohydrate Polymers.261, 117884.

9.Shen X. J.,Huang P. L., Wen J. L., Sun R. C. (2017). A facile method for char eliminationduring base-catalyzed depolymerization and hydrogenolysis of lignin.Fuel ProcessingTechnology.167, 491-501.

10.Shen X. J.,Huang P., Li F. F., Wang X., Yuan T., Sun R. (2019). Compressive Alginate Sponge Derived from Seaweed Biomass Resources for Methylene Blue Removal from Wastewater.Polymers.11(6), 961.

11.Shen X. J.,Wang B., Huang P. L., Wen J. L., Sun R. C. (2016). Understanding the structuralchanges and depolymerization of Eucalyptus lignin under mild conditions in aqueous AlCl₃.RscAdvances.6(51), 45315-45325.

12.Shen X. J.,Wen J. L., Huang P. L., Zheng K., Wang S. F., Liu Q. Y., Sun R. C. (2017).Efficient and Product-Controlled Depolymerization of Lignin Oriented by Raney Ni Cooperated with Cs_xH_3?xPW₁₂O₄₀.BioEnergy Research. 10(4), 1155-1162.

13.Shen X. J.,Huang P. L., Chen J. H., Wu Y. Y., Liu Q. Y., Sun R. C. (2017). Comparison ofAcid-hydrolyzed and TEMPO-oxidized Nanocellulose for Reinforcing Alginate Fibers.BioResources. 12(4), 8180-8198.

14.Shen X. J.,Huang P., Wen J., Sun R. (2017). Research status of lignin oxidative andreductive depolymerization.Prog. Chem. 29, 162-178.

15.Wang Z. K., Wen J. L., Hong S., Ma C. Y., Tang L., Jiang H., Chen J. J., Sha L.,Shen X. J.,*Yuan T. Q., (2019) Lewis acid facilitate deep eutectic solvent (DES) pretreatment for producing the high-purity and antioxidative lignin.ACS Sustainable Chemistry & Engineering.2020, 8, 1050?1057.（ESI高被引）

16.Wang Z. K., Li H. Y., Lin X. C., Tang L., Chen J. J., Jia-Wei Mo J. W., Yu R. S.,Shen X. J.,* (2020)Novel recyclable deep eutectic solvent boost biomass pretreatment for enzymatic hydrolysis.Bioresource Technology.307, 123237.

17. Cao Q. W., Wu Q., Dai L.,*Shen X. J.,*Si C. L.* (2021) A well-defined lignin-based filler for tuning themechanical properties of polymethylmethacrylateGreen Chemistry. 23, 2329-2335.

18. Xu J., Zhou P., Dai L., Yang Gui Y., Yuan L.,Shen X. J.,*Zhang C. HuoK. (2021). A scalable waste-free biorefinery inspires revenue from holistic lignocellulose valorization.Green Chemistry, 23, 6008-6019.

19. Wang Z. K.,Shen X. J.,*Chen J. J., Jiang Y. Q., Hu Z. Y., Wang X., Liu L. (2018). Lignocellulose fractionation into furfural and glucose by AlCl₃-catalyzed DES/MIBK biphasic pretreatment.International Journal of Biological Macromolecules. 117, 721-726.

20.Jiang J., Wang C., Ebrahimi M.,Shen X. J., Mei C.,(2022).Eco-friendly preparation of high-quality mineralized wood via thermal modification induced silica sol penetration.Industrial Crops and Products. 183, 115003.

21.Wang Z., Huang C., Zhong J., Wang Y., Tang L., Li B., Sheng J., Chen L., Sun S.,Shen X. J., (2021) Valorization of Chinese hickory shell as novel sources for the efficient production of xylooligosaccharides.Biotechnology for Biofuels. 14, 226.

22.Hong S.,^#Shen X. J.,^#Xue Z. M., Zhuohua Sun Z. H., Yuan T. Q. (2020), Structure–function relationships of deep eutectic solvents for lignin extraction and chemical transformation.Green Chemistry. 22, 7219-7232.

23.Shen X. J.,^#Xin, Y.,^#Liu, H. Han, B. (2020), Product‐oriented Direct Cleavage of Chemical Linkages in Lignin.ChemSusChem. doi:10.1002/cssc.202001025.

24. Mei Q.,^#Shen X. J.,^#Liu H., Han B. (2019). Selectively transform lignin into value-added chemicals.Chinese ChemicalLetters. 30(1), 15-24.

25.Hong S.,^#Shen X. J.,^#Zhuohua Sun Z. H., Yuan T. Q. (2020), Insights into Structural Transformations of Lignin Toward High Reactivity During Choline Chloride/Formic Acid Deep Eutectic Solvents Pretreatment.Frontiers in Energy Research.8, 573198.