易文君,女,汉族,中共党员,1989年3月出生,工学博士,毕业于湖南大学。2010年6月于湖南师范大学获制药工程专业工学学士学位,2013年12月于湖南师范大学获有机化学专业理学硕士学位。2018年6月于湖南大学获化学工程与技术专业工学博士学位,2018年12月至今为新利luck在线·(中国)有限公司官网材料科学与工程学院教师。
主要研究方向:
医用可吸收复合材料研究—原料合成,催化剂设计,有机无机共混材料制备
1)为降低医用聚乳酸成本,从原料丙交酯出发,研究降低其生产成本,用于合成高性能聚乳酸材料。
2)为合成高性能生物医用骨钉及骨板,降低骨折患者二次手术的痛苦,研究开发高强度可吸收复合材料,用于骨折患者术后固定。特选用可吸收聚乳酸材料进行改性。对材料的力学性能等进行研究,为其临床应用提供基础。
参与科研项目:
1.微-介孔分子筛基催化剂上由大宗生物质基化学品合成喹啉类化合物绿色反应过程的关键科学问题研究.国家自然科学基金. 751214189(参与)
2.环已烷温和条件下催化氧化制环已酮反应工艺.横向项目. 900214190(参与)
3.化石能源低碳化清洁利用.教育部科技项目. IRT1238
4.环已烷催化制备环已酮反应工艺开发.中国石化集团巴陵石化有限责任公司(参与)
已发表SCI期刊论文:
1. Yi, W.-J.; Li, L.-J.; He, H.; Hao, Z.; Liu, B.; Shen, Y.; Chao, Z.-S., Poly(l-lactide)/cyclodextrin/citrate networks modified hydroxyapatite and its role as filler in the promotion to the properties of poly(l-lactide) biomaterials. Polymer 2018, 145, 1-10. 2.
2. Yi, W.-J.; Li, L.-J.; He, H.; Hao, Z.; Liu, B; Chao, Z.-S, Shen, Y.Synthesis of poly(L-lactide)/β-cyclodextrin/citrate network modified hydroxyapatite and its biomedical properties.New Journal of Chemistry., 2018,42, 14729-14732.
3 Yi, W. J.; Li, L. J.; Hao, Z.; Jiang, M.; Lu, C.; Shen, Y.; Chao, Z. S., Synthesis of L-Lactide via Thermal Degradation of Various Telechelic Oligomeric Poly(L-Lactic acid) intermediates. Ind. Eng. Chem. Res. 2017, 56 (16), 4867-4877.
4. Li, L. J.;Yi, W.-J; Liu, T. W.; Huang, C.; Li, A.; Luo, C. W.; Chao, Z. S., Hydrogenation of 3-Hydroxypropanal to 1,3-Propanediol over Cu-V/Ni/SiO2 Catalyst. New J. Chem. 2017, 41 (17).
5. Li, L. J.;Yi, W. J.; Liu, T. W.; Huang, C.; Chao, Z. S., Hydrogenation of 3-hydroxypropanal into 1,3-propanediol over bimetallic Ru–Ni catalyst. Rsc Advances 2017, 7 (51), 32027-32037.
6. Dai, J., Zhong, W.,Yi, W., Liu, M., Mao, L., Xu, Q., & Yin, D. (2016). Bifunctional H2WO4/TS-1 catalysts for direct conversion of cyclohexane to adipic acid: Active sites and reaction steps. Applied Catalysis B: Environmental, 192, 325-341.
7. Chen, B. H., Chao, Z. S., He, H., Huang, C., Liu, Y. J.,Yi, W. J.,... & An, J. F. (2016). Towards a full understanding of the nature of Ni (II) species and hydroxyl groups over highly siliceous HZSM-5 zeolite supported nickel catalysts prepared by a deposition–precipitation method. Dalton Transactions, 45(6), 2720-2739.
8. Jiang, M., He, H., Huang, C., Liu, B.,Yi, W. J.,& Chao, Z. S. (2016). α-MnO 2 Nanowires/Graphene Composites with High Electrocatalytic Activity for Mg-Air Fuel Cell. Electrochimica Acta, 219, 492-501.
9. Jiang, M., He, H.,Yi, W. J., Huang, W., Pan, X., Wang, M. Y., & Chao, Z. S. (2017). ZIF-67 derived Ag-Co 3 O 4@ N-doped carbon/carbon nanotubes composite and its application in Mg-air fuel cell. Electrochemistry Communications, 77, 5-9.
10. Zhong, W., Mao, L.,Yi, W., Kirk, S. R., Yin, D., Zheng, A., & Luo, H. (2014). New non-metallic mesoporous SBA-15 catalyst with high selectivity for the gas-phase oxidation of cyclohexylamine to cyclohexanone oxime. Catalysis Communications, 56, 148-152.
11. Li, A., Huang, C., Luo, C. W.,Yi, W. J.,& Chao, Z. S. (2017). High-efficiency catalytic performance over mesoporous Ni/beta zeolite for the synthesis of quinoline from glycerol and aniline. RSC Advances, 7(16), 9551-9561.
12. Zhong, W., Mao, L.,Yi, W.,Zou, G., Li, Y., & Yin, D. (2016). Highly efficient light-driven HNO3 nitration–oxidation of cyclohexane to co-product nitrocyclohexane and adipic acid in a biphasic system. Research on Chemical Intermediates,42(2), 461-470.
联系方式:E-mail:yiwenjun8933@163.com; yiwenjun@hnu.edu.cn,
QQ:178152626。
通讯地址:(邮编410114)湖南省长沙市雨花区万家丽南路二段960号