袁文津,女,讲师,工学博士
联系方式:ywj407024846@126.com
研究方向
1. 气凝胶保温材料
2. 新能源催化材料
3. 复合材料改性
教育经历
2016.09-2020.06 天津大学 工学博士 材料学
2013.09-2016.03 华东理工大学 工学硕士 材料科学与工程
2009.09-2013.06 济南大学 工学学士 高分子材料与工程
工作经历
2020.09-今 天津城建大学材料科学与工程学院 讲师
科研项目
1. 轻质纳米气凝胶专利权成果转化,2024.12.02,负责人。
2. DNA折纸定位陶瓷先驱体气凝胶有序纳米拓扑结构及其应力传递与高温热阻隔机理研究,面上项目,2023.01.01-2026.12.31,参与人。
3. 大尺寸XXXXXXX技术,国家重点研发计划,2021.10.01-2024.10.31,参与人。
4. 大尺寸SiC涂层石墨基座/盘制备技术仿真模拟及新工艺开发,横向项目,2021.04.06-2022.04.30,参与人。
5. 高性能热塑性聚烯烃(TPO)防水卷材,横向项目,2020.01.01-2021.12.31,参与人。
代表性研究成果及学术奖励
[1] Wenjin Yuan, Yao Song, Hongli Liu, et al. Multifunctional coral-like thermal radiation shielding MoSi2/SiC fibers: favourable thermal insulation, oxidation resistant and mechanical properties, Ceramics International, 2025, 51(14): 18906-18915.
[2] Hongli Liu, Kun Yu, Wenjin Yuan*, et al. Robust, fire-resistant, and thermalstable HSMSS@SiBCN ceramic fiber membranes with blocked axial and radial heat transfer for high temperature thermal superinsulation, Ceramics International, 2025, 51(13): 17445-17452.
[3] Hongli Liu, Wenjing Zu, Wenjin Yuan*, et al. Construction of boron carbide phase to improve the thermal insulation and mechanical properties of carbon aerogel, Diamond and Related Materials, 2025, 154: 112150.
[4] Hongli Liu, Ziyang Peng, Wenjin Yuan*, et al. Silicon carbide modified mullite fiber ceramic aerogel with high strength and favourable high-temperature infrared shielding capabilities, Journal of Sol-Gel Science and Technology, 2025, 114: 549-558.
[5] Hongli Liu, Chenghao Bian, Wenjin Yuan*, et al. Mo-doped hollow Si3N4/SiC ceramic fiber composites for high temperature heat insulation and oxidation resistance, International Journal of Applied Ceramic Technology, 2025. 22(4): e15089.
[6] Peng Wang, Hongli Liu*, Wenjin Yuan*, et al. Carbon nanotubes regulated hollow skeleton carbon aerogel for effective thermal insulation and favorable mechanical behavior[J], Journal of Sol-Gel Science and Technology, 2022.101(1):193-204.
[7] Hongli Liu, Peng Wang, Wenjin Yuan*, et al. Study on the thermal insulation performance of the core–shell skeleton graphene oxide/carbon composite aerogel[J], Journal of Polymer Engineering, 2021. 41(10): 863-872.
[8] Hongli Liu, Jianyu Chen, Wenjin Yuan*, et al. Structure engineering of Fe-based MOF aerogel by Halloysite Nanotubes for efficient methylene blue adsorption, Journal of Sol-Gel Science and Technology, 2021, 99: 55-62.
[9] Hongli Liu, Bo Gao, Wenjin Yuan*, et al. Modification of graphene aerogel with titania nanotubes for efficient methylene blue adsorption kinetics[J]. Journal of Sol-Gel Science and Technology, 2021, 97: 271-280.
[10] Wenjin Yuan, et al. Structure engineering of electrodeposited NiMo films for highly efficient and durable seawater splitting[J]. Electrochimica Acta, 2021, 365: 137366.
[11] Wenjin Yuan, et al. Tuning cobalt eg occupation of Co-NCNT by manipulation of crystallinity facilitates more efficient oxygen evolution and reduction[J]. Journal of Catalysis, 2020, 383: 221-229.
[12] Wenjin Yuan, et al. Two-dimensional lamellar Mo2C for electrochemical hydrogen production: insights into the origin of hydrogen evolution reaction activity in acidic and alkaline electrolytes[J]. ACS applied materials & interfaces, 2018, 10(47): 40500-40508.
[13] Wenjin Yuan, et al. Mechanical properties and interfacial interaction of modified calcium sulfate whisker/poly (vinyl chloride) composites[J]. Journal of Materials Science & Technology, 2016, 32(12): 1352-1360.
[14] Wenjin Yuan, et al. Synthesis of a new titanate coupling agent for the modification of calcium sulfate whisker in poly (vinyl chloride) composite[J]. Materials, 2016, 9(8): 625.
[15] Wenjin Yuan, et al. A novel surface modification for calcium sulfate whisker used for reinforcement of poly (vinyl chloride)[J]. Journal of Polymer Research, 2015, 22(9): 173.
[16] 刘洪丽,袁文津,刘文成等,一种增强隔热二氧化锆复合陶瓷气凝胶及其制备方法,(CN202210602762.3)
[17] 刘洪丽,陈建宇,袁文津等,基于电纺法轻质承载纳米陶瓷气凝胶及其制备方法(CN202210445467.1)
[18] 袁文津,崔振铎,朱胜利等,一种自支撑碳化钼及其制备方法和应用(公开号: CN110878418A)
[19] 徐世爱,袁文津等,一种极性聚醚型钛酸酯偶联剂的合成方法(公开号:CN106083915A)
[20] 获2021年天津市科学技术进步二等奖,成果名称“被动式建筑保温系统关键材料研发与气密节点无热桥设计工程应用”,排名第5。