解玉姣

姓名

解玉姣

出生年月

1986年11月

政治面貌

群众

民族

汉

职称

副教授

学历

博士研究生

学位

博士

联系方式

346426920（QQ）

电子邮箱

yujiaoxie@sdut.edu.cn

主要学习（工作）经历

2025.01—至今，山东理工大学化学化工学院，副教授

2016.12—2024.12，山东理工大学化学化工学院，讲师

2012.02—2016.10，瑞典吕勒奥理工大学，能源工程，博士

2009.09—2011.12，南京工业大学，化学工艺，硕士

2005.09—2009.06，聊城大学，化学工程与工艺，学士

主要研究方向

生物质转化；二氧化碳分离；能源化工；化工热力学

主讲课程

《化工热力学》 《化学化工专业英语》 《化工专业实验》

科研项目

1. 熔盐醇水合体系中木质纤维素梯级解离-催化转化的活性物种调控机制，国家自然科学基金青年基金，2026.01—2028.12，主持

2. 低钾型3A分子筛的绿色合成与性能强化关键技术研究，山东省重点研发计划“科技型中小企业创新能力提升工程”，2025.08—2027.07，主持

3. 胆碱基离子液体水溶液分离CO₂的调控机制研究，山东省自然科学基金，2018.03—2020.12，主持

4. 综纤维素催化制乳酸过程溶出分离和原位催化的协同调控机制，国家自然科学基金面上项目，2024.01—2027.12，参与

5. 基于掺N碳材料的温控响应酸碱双环境催化体系的构建及催化纤维素定向转化制小分子羧酸，国家自然科学基金面上项目，2020.01—2023.12，参与

6. 生物油组分萃取耦合化学转化提质制备高品质燃料油和化学品技术，国家重点研发计划子课题，2019.11—2022.12，参与

论著专利

1. Huiting Zhao, Fangyong Yu, Yujiao Xie^*, Yun Jia, Yuan Zhang, Feng Song, Hongzi Tan, Hongyou Cui*.Machine learning prediction and inverse design for high-yield 5-HMF production from cellulose in metal salt catalysts, Catalysis Today, 2026, 468, 115703.

2. Feipeng Wang, Huiting Zhao, Yuan Zhang, Feng Song, Hongzi Tan, Fangyong Yu, Hongyou Cui, Yujiao Xie^*. Kinetic and characteristic investigations on the conversion of cellulose to 5-hydroxymethylfurfural in the mixed metal salt system, Renewable Energy, 2025, 242, 122434.

3. Chunjie Wei, Fangyong Yu, Yujiao Xie^*, Feipeng Wang, Feng Song, Yuan Zhang, Hongzi Tan, Hongyou Cui^*, Multifunctional carboxymethyl cellulose film by adjusting cellulose structure through molten salt hydrates, Industrial Crops & Products, 2024, 213, 118405.

4. Chunjie Wei, Gang Liu, Yujiao Xie^*, Zhongyuan Sun, Chang Liu, Feng Song, Hongyou Cui^*, Cellulose dissolution and conversion into 5hydroxymethylfurfural in mixed molten salt hydrate. Cellulose, 2023,30: 801–813.

5. Zhongyuan Sun, Yujiao Xie^*, Chunjie Wei, Yuan Zhang, Feng Song, Hongyou Cui^*. Effect of additional salt on conversion of cellulose into 5-hydroxymethylfurfural in metal chloride aqueous solution. Journal of Molecular Liquids, 2023, 383: 122132.

6. Gang Liu, Yujiao Xie^*, Chunjie Wei, Chang Liu, Feng Song, Xiuyu Sun, Yuan Zhang, Hongyou Cui^*. Synergistic catalysis of species in molten salt hydrate for conversion of cellulose to 5-hydroxymethylfurfural, Biomass and Bioenergy, 2022, 158: 106363.

7. Jinghua Wang, Hongyou Cui^*, Yong Wang, Rongrong Zhao, Yujiao Xie, Ming Wang, Weiming Yi^*. Efficient catalytic conversion of cellulose to levulinic acid in the biphasic system of molten salt hydrate and methyl isobutyl ketone, Green Chemistry, 2020, 22, 4240–4251.

8. Yong Wang, Jinghua Wang, Yuan Zhang, Feng Song, Yujiao Xie, Ming Wang, Hongyou Cui^*, Weiming Yi^*. NDoped carbon materials as heterogeneous catalysts for high efficiency isomerization glucose to fructose in aqueous media, Catalysis Letters, 2020, 150, 493–504.

9. Yong Wang, Yuan Zhang, Jinghua Wang, Ming Wang, Hongyou Cui^*, Weiming Yi^*, Feng Song, Pingping Zhao, Xiuyu Sun, Yujiao Xie. Temperature-responsive HCl-releasing catalysts for cellulose hydrolysis into glucose, Catalysis Letters, 2020, 150, 3184–3195.

10. Yujiao Xie^*, Gang Liu, Haiwei Nie, Fangyong Yu, Xiaoxue Xing, and Hongyou Cui*. Energy analysis of physical absorption and chemical absorption of CO₂ in ionic liquids, Energy Technology, 2020, 8(1), 1900529.

11. Yujiao Xie, Fangyong Yu, Yong Wang, Xianglei He, Shengren Zhou, Hongyou Cui^*. Salt effect on liquid-liquid equilibria of tetrahydrofuran/water/5-hydroxymethylfurfural systems. Fluid Phase Equilibria, 2019, 493: 137-143.

12. Yuan Zhang, Yong Wang, Hongyou Cui^⁎, Pingping Zhao^⁎, Feng Song, Xiuyu Sun, Yujiao Xie, Weiming Yi^*, Lihong Wang. Effects of hydrolysis and oxidative hydrolysis pretreatments on upgrading of the water-soluble fraction of bio-oil via decarboxylation, Applied Energy 2018, 226, 730-742.

13. Yujiao Xie^*, Johanna Björkmalm, Chunyan Ma, Karin Willquist, Johan Yngvesson, Ola Wallberg, Xiaoyan Ji^*. Techno-economic evaluation of biogas upgrading using ionic liquids in comparison with industrially used technology in Scandinavian anaerobic digestion plants, Applied Energy, 2018, 227: 742-750.