基本介绍

李晓云

副教授 博士生导师 植物保护(博导)/资源利用与植物保护(专硕硕导)

 

专业方向

生物质基化学品绿色合成,新型农药及中间体制备,纳米-农药缓控释制剂研发。

发表高水平学术论文40多篇,H因子25。相关成果被Applied Catalysis B: Environmental,Green Chemisitry,Industrial Crops & Products,Waste Management等国际一流期刊报道,最高影响因子为22.10。

课题组博后招聘条件:

1.具有植物保护、化学、环境科学与工程、轻工科学与工程、材料学等相关专业博士学位;

2.具有农药及缓释材料研发、光电催化、生物质材料、生物质化学品等研究背景;

3.有发表SCI学术论文经验;

4.要求能独立设计并开展研究工作。

应聘者请将应聘材料(1)简历,(2)自荐信,(3)毕业论文或代表性成果发送至lixy655@mail.sysu.edu.cn。

 

人才项目

百人计划    

 

教育经历    

2013.09-2018.01,天津大学,环境科学与工程学院,环境工程,博士

2010.09-2013.07,山东农业大学,资源与环境学院,植物营养学,硕士

2006.09-2010.07,山东农业大学,林学院,园林,本科

 

工作经历

2024.04至今,中山大学,农业与生物技术学院,副教授

2020.10-2024.03,中山大学,农学院,助理教授

2018.03-2020.09,天津科技大学,轻工科学与工程学院,轻工技术与工程,博士后

 

科研成果    

代表性论文(#共同一作,*通讯作者)

1. Xu H., Lu L., Yu Z., Lu X., Duan Y., Si C., Li X.* Synergistic interaction between Zn clusters and single-atom Ru in 3D NiFeS-LDH enhance 5-hydroxymethylfurfural electrocatalytic oxidation. Applied Catalysis B: Environment and Energy, 2025, 375:125439. (中科院大类一区)

2. Zhang Z., Lu L., Xu H., Lu X., Li X.* A magnetic carbon-based solid acid catalyst derived from tobacco stalk for efficient valorization of tobacco stalk to furfural. Industrial Crops & Products, 2025, 227:120816. (中科院大类一区)

3. Xu M.#, Duan Y.#, Li H., He S., Zi X., Zhao Y., Jiao C.*, Li X.* A pathway for sugar production from zgricultural saste catalyzed by sulfonated magnetic carbon microspheres. Molecules, 2025, 30, 2675. (中科院大类二区)

4. Wang H., Li X.*, Si C.* Electrocatalytic oxidation of biomass-derived chemicals using non-precious metal catalysts: design strategies, performance characteristics and perspectives. Green Chemistry, 2025, e202501487.(中科院大类一区)

5. Hu W., Xu H., Zhang Z., Duan Y., Lu X., Lu L. *, Si C., Peng Y., Li X.* Optimizing acidic site control for selective conversion of biomass-based sugar to furfural and levulinic acid through HSiW/MCM-41 catalyst. Biomass and Bioenergy, 2024,186: 107275.(中科院大类二区)

6. Duan Y., Lu X., Fan O., Xu H., Zhang Z., Si C. *, Xu T. *, Du H.*, Li X.* Non-noble metal catalysts for electrooxidation of 5-hydroxymethylfurfural. ChemSusChem, 2024, e202401487. (中科院大类二区)

7. Xu H., Xin G., Hu W., Zhang Z., Si C., Chen J., Lu L., Peng Y., Li X. * Single-atoms Ru/NiFe layered double hydroxide electrocatalyst: Efficient for oxidation of selective oxidation of 5-hydroxymethylfurfural and oxygen evolution reaction. Applied Catalysis B: Environmental, 2023,339: 123157. (中科院大类一区)

8. Peng Y.*, Chen Q., Guan C., Yang X., Jiang X., Wei M., Tan J., Li X.* Metal oxide modified biochars for fertile soil management: Effects on soil phosphorus transformation, enzyme activity, microbe community, and plant growth. Environmental Research, 2023, 231:116258.(中科院大类二区)

9. Yang Y., Xu X., He H., Huo D.*, Li X.*, Dai L. *, Si C.* The catalytic hydrodeoxygenation of bio-oil for upgradation from lignocellulosic biomass. International Journal of Biological Macromolecules, 2023, 242: 124773. (中科院大类一区)

10. Yu Z., Guo M., Wang J., Xiong J., Li X., Zhang R., Qiao Y., Han J., Lu X .* Linear diketones as next-generation biomass-derived platform molecules: from heterogeneous catalytic synthesis to supply of high-end chemicals. Green Chemistry, 2023, 25, 833-848. (中科院大类一区)

11. Li X. Xu H., Hu W., Zhou H., Zhu Y., Lu L.*, Si C.* One step synthesis of Mo-doped carbon microspheres for valorization corncob to levulinic acid. Industrial Crops & Products, 2022, 184: 115019. (中科院大类一区)

12. Peng Y., Zhang B., Guan C., Jiang X., Tan J., Li X. * Identifying biotic and abiotic processes of reversing biochar-induced soil phosphorus leaching through biochar modification with MgAl layered (hydr)oxides. Science of the Total Environment,2022, 157037. (中科院大类一区)

13. Li X., Lu X., Hu W., Xu H., Chen J., Xiong J., Lu L., Yu Z., Si C.. Phosphotungstic acid functionalized biochar for furfural production from corncob. Fuel Processing Technology, 2022, 229: 107178. (中科院大类一区)

14. Xu H., Li X.*, Hu W., Lu L., Chen J.Zhu Y., Zhou H., Si C.* Recent advances on solid acid catalyic systems for production of 5-Hydroxymethylfurfural from biomass derivatives. Fuel Processing Technology, 2022, 234: 107338. (中科院大类一区)

15. Xu H., Li X.*, Hu W., Yu Z., Zhou H., Zhu Y., Lu L., Si C.* Research progress of highly efficient noble metal catalysts for the oxidation of 5-Hydroxymethylfurfural. ChemSusChem, 2022,15:e202200352. (中科院大类二区)

16. Yu Z., Ji N., Li X., Zhang R., Qiao Y., Xiong J., Liu J., Lu X. * Kinetics driven by hollow nanoreactors: An opportunity for controllable catalysis. Angew. Chem. Int. Ed. 2022, 62(3), e202213612. (中科院大类一区)

17. Yu Z., Ji N., Xiong J., Li X., Zhang R., Zhang L., Lu X.* Ru nanoparticles loaded hollow carbon spheres as nanoreactors for hydrogenation of levulinic acid: Explicitly recognizing the void-confinement effect. Angew. Chem. Int. Ed. 2021, 60: 20786-20794. (中科院大类一区)

18. Xu R.,# Liu K.,# Du H., Liu H., Cao X., Zhao X., Qu G., Li X.*, Li B.,* Si C. * Falling leaves return to their roots: A review on the preparation of γ-valerolactone from lignocellulose and its application in the conversion of lignocellulose. ChemSusChem, 2020,13:1-17.(中科院大类二区)

19. Li X., Lu X., Nie S., Liang M., Yu Z., Duan B., Yang J., Xu R., Lu L.*, Si C.* Efficient catalytic production of biomass-derived levulinic acid over phosphotungstic acid in deep eutectic solvent. Industrial Crops & Products, 2020, 145, 112154. (中科院大类一区)

20. Li X., Lu X., Liang M., Xu R., Yu Z., Duan B., Lefu Lu*, Si C.* Conversion of waste lignocellulose to furfural using sulfonated carbon microspheres as catalyst. Waste Management, 2020, 108: 119–126. (中科院大类一区)

21. Li X., Yang J., Xu R., Lu L., Liang M., Jiang L., Si C.* Kinetic study of furfural production from Eucalyptus sawdust using H-SAPO-34 as solid Brønsted acid and Lewis acid catalysts in biomass-derived solvents. Industrial Crops & Products, 2019, 135, 196-205. (中科院大类一区)

22. Li X., Xu R., Liu Q., Liang M., Yang J., Lu S., Li G., Lu L.*, Si C. * Valorization of corn stover into furfural and levulinic acid over SAPO-18 zeolites: Eect of Brønsted to Lewis acid sites ratios. Industrial Crops & Products, 2019, 141, 111759. (中科院大类一区)

23. Li X., Xu R., Yang J., Nie S., Liu D., Liu Y., Si C.*. Production of 5-hydroxymethylfurfural and levulinic acid from lignocellulosic biomass and catalytic upgradation. Industrial Crops and Products, 2019, 130: 184-197. (中科院大类一区)

24. Li X., Liu Q., Luo C., Lu L., Gu X., Lu X.* Green and efficient production of furfural from corn cob over H-ZSM-5 using γ-valerolactone as solvent. Industrial Crops and Products, 2018, 120: 343-350. (中科院大类一区)

25. Li X., Liu Q., Luo C., Gu X., Lu L., Lu X.* Kinetics of furfural production from corn cob in γ-valerolactone using diluted sulfuric acid as catalyst. ACS Sustainable Chemistry and Engineering, 2017, 5: 8587-8593. (中科院大类一区)

申请专利

1. 李晓云, 司传领, 姚丽菲.一种乙酰丙酸制备及其溶剂和催化剂回收的工艺. 发明专利, 申请号: 201810965325.1

2. 李晓云, 司传领, 徐蕊. 一种SAPO-34催化木聚糖制备糠醛及溶剂回收的方法. 发明专利, 申请号: 201810965323.2

3. 李晓云,梁敏,段冰瑜. 一种H-Beta催化玉米秸秆制备5-羟甲基糠醛的方法. 发明专利,申请号:201910966500.3

4. 李晓云, 段冰瑜, 梁敏. 一种碳基固体酸催化琼脂糖制备5-羟甲基糠醛的方法. 发明专利, 申请号:201910966498.X

5. 吕学斌, 李晓云, 田津, 刘庆岭. 一种适用于高寒缺氧地区污水的处理系统. 实用新型,专利号: ZL201621396930.4 (已授权)

6. 吕学斌, 李晓云, 田津, 刘庆岭. 一种适用于高寒缺氧地区污水的处理系统及处理方法. 发明专利, 申请号: 201611180551.6

科研项目:

  1. 国家自然科学基金青年项目,52206293,2023.01-2025.12,30万元,在研、主持;

  2. 云南省烟草公司大理州公司科技计划一般项目,2023.01-2024.12, 30万元,在研、主持;

  3. “百人计划”科研启动项目,2021-2023,20万元,结题;

  4. 博士后留深资助项目,2021-2023,30万元,结题;

  5. 中国博士后科学基金第64批面上资助项目, 2018M641661,2018.1-2019.12,5万元,已结题、主持;

  6. 广西清洁化制浆造纸与污染控制重点实验室开放基金,KF201801-5,2018,5万元,已结题、主持;

  7. 国家自然科学面上项目, 32071721, 2021.01.01-2024.12.31, 58万元, 结题, 参与;

  8. 国家自然科学基金面上项目,51478308,80万元,2016.01-2018.01,已结题,参与;

  9. 国家自然科学基金青年项目,21406165,2016.01-2018.01,25万元,已结题,参与。

奖励与荣誉

  1. 2022年5月-第五届“深水杯”全国大学生给排水科技创新大赛获“定向专题竞赛三等奖”2项(指导老师)

  2. 2022年1月-首届零碳未来创新大赛决赛二等奖1项(指导老师)

  3. 2023年1月-第二届全国零碳未来创新大赛三等奖1项(指导老师)

 

社会兼职

中科院一区期刊Material Futures 青年编委

Nature Communications, Applied Catalysis B: Environment and Energy, Journal of the American Chemical Society,Angewandte Chemie International Edition,Advanced Functional Materials,Chemical Engineering Journal等期刊审稿人.