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胡静



发布时间 :2022-12-15    信息员: 

胡静(Hu Jing

讲师

电子邮件:574963000@qq.com

办公地点:福建农林大学水资源与水安全研究中心207

个人主页:https://www.researchgate.net/profile/Jing-Hu-7



一、研究方向

环境纳米技术,纳米材料应用,植物生理生化


二、个人履历

2018.9-2022.6 北京大学  地理学(环境地理学) 理学博士

2017.9-2018.6 北京大学地表过程分析与模拟教育部重点实验室  科研助理

2014.9-2017.6 武汉理工大学   药学   医学硕士

2010.9-2014.6 武汉理工大学 生物技术 理学学士


三、代表性论著(论文、专利、著作、教材、软著等)

1.Hu, J., Wu, X., Wu, F., Chen, W., White, J. C., Yang, Y., Wang, B., Xing, B., Tao, S., Wang, X. L.* Potential application of titanium dioxide nanoparticles to improve the nutritional quality of coriander (Coriandrum sativum L.). Journal of Hazardous Materials, 2020, 389, 121837.

2.Hu, J., Jia, W., Wu, X., Zhang, H., Wang, Y., Liu, J., Yang, Y., Tao, S., Wang, X. L.* Carbon dots can strongly promote photosynthesis in lettuce (Lactuca sativa L.). Environmental Science: Nano, 2022, 9, 1530-1540.

3.Hu, J., Jia, W., Yu, X., Yan, C., White, J. C., Liu, J., Shen, G., Tao, S., Wang, X. L.* Carbon dots improve the nutritional quality of coriander (Coriandrum sativum L.) by promoting photosynthesis and nutrient uptake. Environmental Science: Nano, 2022, 9, 1651-1661.

4.Hu, J., Wu, X., Wu, F., Chen, W., Zhang, X., White, J. C., Li, J., Wan, Y., Liu, J., Wang, X. L.* TiO2 nanoparticle exposure on lettuce (Lactuca sativa L.): Dose-dependent deterioration of nutritional quality. Environmental Science: Nano, 2020, 7, 501-513.

5.Hu, J., Guo, H., Li, J. L.*, Gan, Q., Wang, Y., Xing, B. Comparative impacts of iron oxide nanoparticles and ferric ions on the growth of Citrus maxima. Environmental Pollution, 2017, 221, 199-208.

6.Hu, J.1, Guo, H.1, Li, J. L.*, Wang, Y., Xiao, L., Xing, B. Interaction of γ-Fe2O3 nanoparticles with Citrus maxima leaves and the corresponding physiological effects via foliar application. Journal of Nanobiotechnology, 2017, 15(1), 51-62.

7.Hu, J.1, Wu, C.1, Ren, H., Wang, Y., Li, J. L.*, Huang, J.* Comparative Analysis of Physiological Impact of γ-Fe2O3 Nanoparticles on Dicotyledon and Monocotyledon. Journal of Nanoscience and Nanotechnology, 2018, 18(1), 743-752.

8. Wang, Y.1, Hu, J.1, Dai, Z., Li, J. L.*, Huang, J. In vitro assessment of physiological changes of watermelon (Citrullus lanatus) upon iron oxide nanoparticles exposure. Plant Physiology and Biochemistry, 2016, 108, 353-360.

9. Li, J. L.*, Hu, J., Xiao, L., Wang, Y., Wang, X. L.* Interaction mechanisms between α-Fe2O3, γ-Fe2O3 and Fe3O4 nanoparticles and Citrus maxima seedlings. Science of The Total Environment, 2018, 625, 677-685.

10. Li, J. L., Hu, J., Ma, C., Wang, Y., Wu, C., Huang, J.*, Xing, B. Uptake, translocation and physiological effects of magnetic iron oxide (γ-Fe2O3) nanoparticles in corn (Zea mays L.). Chemosphere, 2016, 159, 326-334.

11. Li, J. L., Hu, J., Xiao, L., Gan, Q., Wang, Y.* Physiological effects and fluorescence labeling of magnetic iron oxide nanoparticles on citrus (Citrus reticulata) seedlings. Water, Air, & Soil Pollution, 2017, 228, 52.

12. Wu, X., Hu, J., Wu, F., Zhang, X., Wang, B., Yang, Y., Shen, G., Liu, J., Tao, S., Wang, X. L.* Application of TiO2 nanoparticles to reduce bioaccumulation of arsenic in rice seedlings (Oryza sativa L.): A mechanistic study. Journal of Hazardous Materials, 2021, 405, 124047.

13. Wu, F., Jiao, S., Hu, J., Wu, X., Wang, B., Shen, G., Yang, Y., Tao, S., Wang, X. L.* Stronger impacts of long-term relative to short-term exposure to carbon nanomaterials on soil bacterial communities. Journal of Hazardous Materials, 2021, 410, 124550.

14. Gao, Q., Wu, F., Hu, J., Chen, W., Zhang, X., Guo, X., Wang, B., Wang, X. L.* Chemical composition-dependent removal of cationic surfactants by carbon nanotubes. Science of The Total Environment, 2020, 716, 137017.

15. Zhang, X., Chu, Y., Zhang, H., Hu, J., Wu, F., Wu, X., Shen, G., Yang, Y., Wang, B., Wang, X. L.* A mechanistic study on removal efficiency of four antibiotics by animal and plant origin precursors-derived biochars. Science of The Total Environment, 2021, 772, 145468.

16. Wu, F., You, Y., Werner, D., Jiao, S., Hu, J., Zhang, X., Wan, Y., Liu, J., Wang, B., Wang, X. L.* Carbon nanomaterials affect carbon cycle-related functions of the soil microbial community and the coupling of nutrient cycles. Journal of Hazardous Materials, 2020, 390, 122144.

17. Chen, W., Zhang, H., Zhang, M., Shen, X., Zhang, X., Wu, F., Hu, J., Wang, B., Wang, X.L.* Removal of PAHs at high concentrations in a soil washing solution containing TX-100 via simultaneous sorption and biodegradation processes by immobilized degrading bacteria in PVA-SA hydrogel beads. Journal of Hazardous Materials, 2021, 410, 124533.




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