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马小舟

 

马小舟简历

一、个人简历

马小舟,男,甘肃兰州人。2011年进入兰州大学基础医学院进行多肽药物合成研究,师从王锐院士。期间,至清华大学化学系刘冬生研究组进行纳米材料制备及凝胶材料构建研究,于2016年12月获得理学博士学位。2017-2019年,至bet356体育娱乐官网网站化学化工学院进行博士后研究工作,主要面向生物高分子材料设计、合成及农业化学等课题进行研究。在2019年10月完成博士后研究工作后,进入bet356体育娱乐官网网站工作至今。

 

二、主要工作方向

纳米农药及农药载体设计与制备、纳米材料设计及抗菌性能优化

 

三、承担基金

国家重点研发计划重点专项2018年度项目“西南粮食主产区重金属和农业面源污染综合防治与修复技术示范”,课题4“川渝丘陵平原区农田镉污染修复技术集成与示范”(课题编号:2018YFD0800604),2018/1-2020/12,在研,子课题第三完成人 (子课题分任务负责人,研究经费12万,C类项目)

 

国家自然科学基金青年科学基金项目“构象快速响应诱导交联模式同步转变的3D打印凝胶的构建”(课题编号:21905234)。2020/01-2022/12主持

 

四、代表性文章:

1. Ma, X.;  Zhu, X.#;  Mu, Y.;  Gao, C.;  He, W.;  Ran, M.;  Cai, L.;  Fan, G.;  Ma, G.; Sun, X.*, Fabrication of polydopamine reduced CuO nanoparticle-alginate composite nanogels for management of Pseudomonas synringae pv. tabaci in tobacco. Pest Management Science 2023, 79 (3), 1213-1224.

2. Cao, Z.;  Ma, X.;  Zou, A.;  Shi, Z.;  Xiang, S.;  Xu, J.;  Cai, L.;  Huang, J.; Sun, X.*, Chitin nanocrystals supported copper: a new nanomaterial with high activity with P. syringae pv. Tabaci. Pest management science 2023.

3. Zhu, X.;  Ma, X.#;  Gao, C.;  Mu, Y.;  Pei, Y.;  Liu, C.;  Zou, A.; Sun, X.*, Fabrication of CuO nanoparticles composite e-polylysine-alginate nanogel for high-efficiency management of Alternaria alternate. International journal of biological macromolecules 2022, 223, 1208-1222.

4. Ma, X.;  Zhu, X.#;  Qu, S.;  Cai, L.;  Ma, G.;  Fan, G.; Sun, X.*, Fabrication of copper nanoparticle composite nanogel for high-efficiency management of Pseudomonas syringae pv. tabaci on tobacco. Pest Manag Sci 2022, 78 (5), 2074-2085.

5. Liu, C.;  Tian, S.;  Lv, X.;  Pu, Y.;  Peng, H.;  Fan, G.;  Ma, X.;  Ma, L.; Sun, X.*, Nicotiana benthamiana asparagine synthetase associates with IP-L and confers resistance against tobacco mosaic virus via the asparagine-induced salicylic acid signalling pathway. Mol Plant Pathol 2022, 23 (1), 60-77.

6. Lv, X.;  Yuan, M.;  Pei, Y.;  Liu, C.;  Wang, X.;  Wu, L.;  Cheng, D.;  Ma, X.*; Sun, X.*, The Enhancement of Antiviral Activity of Chloroinconazide by Aglinate-based Nanogel and Its Plant Growth Promotion Effect. J Agric Food Chem 2021, 69 (17), 4992-5002.

7. Cai, L.;  Jia, H.;  He, L.;  Wei, X.;  Feng, H.;  Fan, G.;  Ma, X.;  Ma, G.; Sun, X.*, The photocatalytic antibacterial molecular mechanisms towards Pseudomonas syringae pv. tabaci by g-C(3) N(4) nanosheets: insights from the cytomembrane, biofilm and motility disruption. Pest Manag Sci 2021, 77 (5), 2302-2314.

8. Ma, X.; Xiang, S.; Xie, H.; He, L.; Sun, X.; Zhang, Y.*; Huang, J.*, Fabrication of pH-Sensitive Tetramycin Releasing Gel and Its Antibacterial Bioactivity against Ralstonia solanacearum. Molecules 2019, 24, 3606.

9Ma, X.; Yang, Z.; Wang, Y.; Zhang, G.; Shao, Y.; Jia, H.; Cao, T.; Wang, R.*; Liu, D.*, Remote Controlling DNA Hydrogel by Magnetic Field. ACS Applied Material & Interfaces 2017, 9 (3), 1995-2000.

10Ma, X.; Wang, M.; Chen, C.; Isbell, M. A.; Wang, R.*; Liu, D.; Yang, Z.*, Improving the sensitivity for DNA sensing based on double-anchored DNA modified gold nanoparticles. Science China Chemistry 2016, 59 (6), 765-769.

11Ma, X., He, L., Wan, X., Xiang, S., Fan, Y., Xiong, X., Gan, L. and Huang, J.* Reversible mechanical regulation and splicing ability of alginate-based gel based on photo-responsiveness of molecular-level conformation. Materials, 2019, 12, 2919.

12. Ma, X.;  Xiang, S.;  Xie, H.;  He, L.;  Sun, X.;  Zhang, Y.*; Huang, J.*, Fabrication of pH-Sensitive Tetramycin Releasing Gel and Its Antibacterial Bioactivity against Ralstonia solanacearum. Molecules 2019, 24 (19).

13. Xiang, S., Ma, X.#, Liao, S., Shi, H., Liu, C., Shen, Y., Lv, X., Yuan, M., Fan, G., Huang, J.* and Sun, X.* Cellulose nanocrystal surface cationization: A new fungicide with high activity against Phycomycetes capsici. Molecules, 2019, 24, 2467.

14. Xiang, S., Ma, X.#, Shi, H., Ma, T., Tian, C., Chen, Y., Chen, H., Chen, X., Luo, K., Cai, L., Wang, D., Xue, Y., Huang, J.* and Sun, X.* Green synthesis of an alginate-coated silver nanoparticle shows high antifungal activity by enhancing its cell membrane penetrating ability. ACS Applied Bio Materials, 2019, 2, 4087-4096.

15. Zhang, Y.; Ma, X.#.; Gan, L.; Xia, T.; Shen, J.; Huang, J.*, Fabrication of fluorescent cellulose nanocrystal via controllable chemical modification towards selective and quantitative detection of Cu(II) ion. Cellulose 2018, 25 (10), 5831-5842.

16. Huang, J.; Ma, X.; Yang, G. and Alain, D. (2019). Introduction to Nanocellulose. In Nanocellulose. doi:10.1002/9783527807437.ch1

17Ma, X., Wang, Y., Shen, Y., Huang, J. and Dufresne, A. (2019). Current Status of Nanocellulose‐Based Nanocomposites. In Nanocellulose. doi:10.1002/9783527807437.ch6

18. Zhang, Y., Chang, P. R., Ma, X., Lin, N. and Huang, J. (2019). Strategies to Explore Biomedical Application of Nanocellulose. In Nanocellulose. doi:10.1002/9783527807437.ch11

19Ma, X.; Huang, J.; Dong, M. and Deng, X. (2019). Lignin-modified Thermoplastic Materials. In Lignin Chemistry and Application. 

 

五、持有专利:

1. 马小舟; 王晶; 瞿赛姣; 孙现超; 樊光进; 蔡璘; 汪代斌; 徐宸 ; 一种抗菌铜纳米颗粒复合凝胶的制

备方法, 2022-08-19, 中国, CN202110144034.8

发布时间2019-12-04 18:16:45
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