學習經曆：

2004.09-2008.06 湖北師範學院（現湖北師範大學），環境工程專業，獲工學學士學位

2008.09-2011.06 浙江農林大學，林産化工專業，獲工學碩士學位

2011.09-2014.07 中國林科院，林産化工專業，獲工學博士學位

工作經曆：

2014.08-2021.11 浙江農林大學，化學與材料工程學院，講師

2017.01-2020.02 浙江大學，環境科學與工程流動站，博士後

2021.11-2022.12 伟徳国际官网登录入口，伟徳国际官网登录入口，講師

2022.12至今 伟徳国际官网登录入口，伟徳国际官网登录入口，副教授

主要研究領域：有機無機複合材料設計與水環境淨化、結構規整型生物質基接枝共聚物合成與可降解材料

主要講授本科課程：《環境工程原理》、《環境工程實驗》、《科技文獻檢索》等

教學科研業績：

主持國家自然科學基金、浙江省自然科學基金、中國博士後科學基金等科研項目8項；參與國家自然科學基金、浙江省重點基金、國家重點研發計劃項目子課題等5項。目前，在國内外重要學術期刊Journal Materials Chemistry A、Composites Part B-Engineering、ACS Sustainable Chemistry & Engineering、International Journal of Biological Macromolecules等上發表論文40餘篇。目前擔任《forests》專刊“Lignin-Based Nano-Composites and Polymers for Environmental Applications”客座編輯。參編2部專著中的2個章節。授權國家發明專利6項。指導本科生獲國家級大學生創新科研項目2項。指導本科生獲浙江省大學生環境生态科技創新大賽一等獎2項。

發表論文：

1. Liu, X. H., Cheng, W. W, Yu, Y. M., Jiang, S. T., Xu, Y.Z., Zong, E. M.*. Magnetic ZrO₂/PEI/Fe₃O₄ functionalized MWCNTs composite with enhanced phosphate removal performance and easy separability. Composites Part B: Engineering, 2022, 237: 109861-109873.

2. Zong, E. M., Fan, R. F, Hua, H., Yang, J. Y., Jiang, S. T., Dai, J. F., Liu, X. H.*, Song P. A.*. A magnetically recyclable lignin-based bio-adsorbent for efficient removal of Congo red from aqueous solution. International Journal of Biological Macromolecules, 2023, 226: 443-453.

3. Xu, J., Liu, X. H.*, Fu, S. Y., Bio-based epoxy resin from gallic acid and its thermosets toughened with renewable tannic acid derivatives. Journal of Materials Science, 2022, 20: 9493-9507.

4. Yang, J. Y., Dai, J. F., Liu, X. H.*, Fu, S. Y., Zong, E. M., Song P. A.*, A lignin-based epoxy/TiO₂ hybrid nanoparticle for multifunctional bio-based epoxy with improved mechanical, UV absorption and antibacterial properties. International Journal of Biological Macromolecules, 2022, 210 : 85-93.

5. Shan, P., Lu, H., Chen, N., Liu, H.*, Zhang, X., & Liu, X. H.*, A novel bioderived AB2‐type monomer from castor oil derivative for the preparation of fully biobased hyperbranched polyesters. Journal of Applied Polymer Science, 2022, 139(32): 52765.

6. Liu, X. H., Zong, E.M., Hu, W.J., Song, P.A.*, Wang, J.F., Liu, Q.C., Fu, S.Y.*, Lignin-derived porous carbon loaded with La(OH)₃ nanorods for highly efficient removal of phosphate, ACS Sustainable Chemistry & Engineering, 2019, 7: 758-768.

7. Yang, J.Y., Wang, H.X., Liu, X. H.*, Fu, S.Y.*, Song, P.A.*, A nano-TiO₂/regenerated cellulose biohybrid enables simultaneously improved strength and toughness of solid epoxy resins, Composites Science and Technology, 2021, 212: 108884.

8. Zong, E.M., Wang, C., Yang J. Y, Zhu, H. X., Jiang, S.T., Liu, X. H.*, Song, P.A., Preparation of TiO₂/cellulose nanocomposites as antibacterial bio-adsorbents for effective phosphate removal from aqueous medium, International Journal of Biological Macromolecules, 2021, 182: 434-444.

9. Geng, B.Y., Xu, Z.Y., Liang, P., Zhang, J., Christie, P., Liu, H.Z.*, Wu, S.C.*, Liu, X.H.*, Three-dimensional macroscopic aminosilylated nanocellulose aerogels as sustainable bio-adsorbents for the effective removal of heavy metal ions. International Journal of Biological Macromolecules, 2021, 190: 170-177.

10. Zong, E.M., Huang, G.B., Liu, X. H.*, Lei, W.W.*, Jiang, S.T., Ma, Z.Q., Song, P.A.*, A lignin-based nano-adsorbent for superfast and highly selective removal of phosphate, Journal of Materials Chemistry A, 2018,6: 9971-9983.

11. Liu, X.H., Wang, J.F., Li, S.H., Zhuang, X.W., Xu, Y.Z.*, Wang, C.P., & Chu, F.X.*, Preparation and properties of UV-absorbent lignin graft copolymer films from lignocellulosic butanol residue, Industrial Crops and Products, 2014, 52: 633-641.

12. Sun, Y. Q, Ma Z.W., Xu X. D., Liu, X. H.*, Liu L. N, Huang G. B., Liu L., Wang H., Song P. A.*, Grafting Lignin with Bioderived Polyacrylates for Low-Cost, Ductile, and Fully Biobased Poly(lactic acid) Composites, ACS Sustainable Chemistry & Engineering, 2020, 8 (5): 2267-2276.

13. Zong, E.M., Liu, X.H.*, Liu, L.N., Wang, J.F., Song, P.A.*, Ma, Z.Q., Fu, S.Y., Graft Polymerization of Acrylic Monomers onto Lignin with CaCl₂-H₂O₂ as Initiator: Preparation, Mechanism, Characterization, and Application in Poly(Lactic Acid), ACS Sustainable Chemistry & Engineering, 2018, 6 (1) : 337-348.

14. Zong, E.M., Liu, X.H.*, Wang, J.F., Yang, S.X., Jiang, J.H., Fu, S.Y., Facile preparation and characterization of lanthanum-loaded carboxylated multi-walled carbon nanotubes and their application for the adsorption of phosphate ions, Journal of Materials Science, 2017, 52(12): 7294-7310.

15. Zong, E.M, Liu, X.H.*, Jiang, J.H., Fu, S.Y., & Chu, F.X., Preparation and characterization of zirconia-loaded lignocellulosic butanol residue as a biosorbent for phosphate removal from aqueous solution, Applied Surface Science, 2016, 387: 419-430.

16. Zong, E.M., Gu, B. L., Yang J. Y., Shi, C., Jiang, S.T., Ma, Z. Q., Liu, X. H.*, Reusable Hyperbranched Polyethylenimine-Functionalized Ethyl Cellulose Film for the Removal of Phosphate with Easy Separation, ACS Omega, 2020, 6: 505-515.

17. Liu, X. H., He, X., Zhang, J. T., Yang, J. Y., Xiang, X. F., Ma, Z. Q., Liu, L. N., Zong, E.M.*, Cerium oxide nanoparticle functionalized lignin as a nano-biosorbent for efficient phosphate removal, RSC Advances, 2020, 10: 1249-1260.

18. Xu, J., Yang, J.Y., Liu, X.H.*, Wang, H.X., Zhang, J.J., Fu, S.Y.*, Preparation and characterization of fast-curing powder epoxy adhesive at middle temperature, Royal society open science, 2018, 5: 180566.

19. Liu, X.H., Zong, E.M.*, Jiang, J.H., Fu, S.Y., Wang, J.F., Xu, B.B., Chu, F.X., Preparation and characterization of lignin-graft-poly (ɛ-caprolactone) copolymers based on lignocellulosic butanol residue, International Journal of Biological Macromolecules, 2015, 81: 521-529.

20. Liu, X.H., Xu, Y.Z., Yu, J., Li, S.H., Wang, J.F., Wang, C.P., Chu, F.X.*, Integration of lignin and acrylic monomers towards grafted copolymers by free radical polymerization, International Journal of Biological Macromolecules, 2014, 67: 483-489.

21. Zong, E.M.*, Jinhua Jiang, Liu, X.H.*, Fu, S.Y., Xu, Y.Z., & Chu, F.X., Combination of lignin and l-lactide towards grafted copolymers from lignocellulosic butanol residue, International Journal of Biological Macromolecules, 2016, 86: 80-88.

22. Liu, X.H., Wang, J.F., Yu, J., Zhang, M.M., Wang, C.P., Xu, Y.Z.*, Chu, F.X.*, Preparation and characterization of lignin based macromonomer and its copolymers with butyl methacrylate, International journal of biological macromolecules, 2013, 60: 309-315.

23. Yang, J.Y., He, X.W., Wang, H.X., Liu, X.H.*, Lin, P., Yang, S.X.*, & Fu, S.Y.*, High‐toughness, environment‐friendly solid epoxy resins: Preparation, mechanical performance, curing behavior, and thermal properties. Journal of Applied Polymer Science, 2019, 48596.

24. Li, W.H., Zhang, J.J., Yang, C.T., Liu, L.N., Xu, J., Liu, X. H.*, Fu, S.Y.*, Preparation and spectral analysis of melanmine-formaldehyde resin modified by benzoguanamine, Spectroscopy and spectral analysis, 2018, 38(5): 1481-1485.

25. Xu, J., Yang, J.Y., Wang, H.X., Lin, P., Liu, X.H.*, Zhang, J.J, Fu S.Y.*, Bio-based hyperbranched toughener from tannic acid and its enhanced environment-friendly solid epoxy resin with high performance, Journal of Renewable Materials, 2019, 12.

26. Liu, X.H, Wang, C.P, Wang, J.F., Xu, Y.Z.*, Chu, F.X.*, Synthesis and characterization of dihydroeugenol acrylate, Spectroscopy and spectral analysis, 2014, 34(4): 1031-1034.

27. Liu, X.H., Zhang, M.M., Wang, J.F., Xu, Y.Z., Wang, C.P., Chu, F.X.*, Chemical structure of bioethanol lignin by low-temperature alkaline catalytic hydrothermal treatment, Spectroscopy and spectral analysis, 2013, 33(11): 2940-2944.

28. Ma, Z.Q., Yang, Y., Wu, Y., Xu, J., Peng, H., Liu, X.H., Wang, S., In-depth comparison of the physicochemical characteristics of bio-char derived from biomass pseudo components: Hemicellulose, cellulose, and lignin. Journal of Analytical and Applied Pyrolysis, 2019, 140: 195-204.

29. Ma, Z.Q., Yang, Y., Ma, Q., Zhou, H., Luo, X., Liu, X.H., Wang, S. (2017). Evolution of the chemical composition, functional group, pore structure and crystallographic structure of bio-char from palm kernel shell pyrolysis under different temperatures. Journal of Analytical and Applied Pyrolysis, 2017, 127: 350-359.

30. Huang, M., Xu, J., Ma, Z., Yang, Y., Zhou, B., Wu, C., Liu, X.H., & Zhang, W, Bio-BTX production from the shape selective catalytic fast pyrolysis of lignin using different zeolite catalysts: relevance between the chemical structure and the yield of bio-BTX. Fuel Processing Technology, 2021, 216: 106792.

31. Ma, Z.Q., Wang, J., Li, C., Yang, Y., Liu, X.H., Zhao, C., Chen, D., New sight on the lignin torrefaction pretreatment: Relevance between the evolution of chemical structure and the properties of torrefied gaseous, liquid, and solid products. Bioresource technology, 2019, 288: 121528.

32. Ma, Z.Q., Wang, J., Zhou, H., Zhang, Y., Yang, Y., Liu, X.H., Wang, S., Relationship of thermal degradation behavior and chemical structure of lignin isolated from palm kernel shell under different process severities. Fuel Processing Technology, 2018, 181, 142-156.

33. Li, C., Zhu, L., Ma, Z., Yang, Y., Cai, W., Ye, J., Liu, X.H., Zuo, Z. , Optimization of the nitrogen and oxygen element distribution in microalgae by ammonia torrefaction pretreatment and subsequent fast pyrolysis process for the production of N-containing chemicals. Bioresource Technology, 2021, 321: 124461.

34. Ru, J., Tong, C., Chen, N., Shan, P., Zhao, X., Liu, X.H., Liu, H, Zhao, Y., Morphological and property characteristics of surface-quaternized nanofibrillated cellulose derived from bamboo pulp. Cellulose, 2019, 26: 1683-1701.

35. Yu, J., Liu, Y., Liu, X.H.,Wang, C., Wang, J., Chu, F., & Tang, C., Integration of renewable cellulose and rosin towards sustainable copolymers by “grafting from” ATRP. Green Chemistry, 2014, 16(4): 1854-1864.

36. Lu, C., Liu, Y., Liu, X.H., Wang, C., Wang, J., Chu, F., Sustainable multiple-and multistimulus-shape-memory and self-healing elastomers with semi-interpenetrating network derived from biomass via bulk radical polymerization. ACS Sustainable Chemistry & Engineering, 2018, 6(5), 6527-6535.

授權發明專利：

1. 劉曉歡，宗恩敏，胡偉傑，宋平安，一種納米氫氧化镧改性的木質素多孔炭及其制備方法和應用，專利号：ZL201811376052.3.

2. 劉曉歡，傅深淵，李文環，一種四元共聚三聚氰胺浸漬樹脂膠及其制備方法，專利号：ZL201610436381.7.

3. 宗恩敏，劉曉歡，宋平安，沈夢月，廖顯軍，蔣勝韬，一種納米氧化镧改性的堿木質素吸附去除水體中磷的方法，專利号：ZL201810360444.4.

4. 趙超，邵千鈞，劉曉歡，馬中青，李彬，一種玉米專用木質素緩控釋肥，專利号：ZL201611096396.X.

5. 傅深淵，劉曉歡，李文環，一種低溫固化三聚氰胺甲醛樹脂及其制備方法，專利号： ZL201610439633.1.

6. 傅深淵，劉曉歡，李文環，一種三聚氰胺甲醛樹脂膠及其内塑法制備工藝，專利号： ZL201610431456.2.

個人榮譽、獲獎情況：

浙江省高校領軍人才培養計劃青年優秀人才（2020年）、浙江農林大學院優秀班主任（2016年和2020年）