课题组导师介绍——唐未
2024-09-02 15:15
重庆
唐未,男,博士,毕业于中国地质大学(北京),2024年7月进入西南民族大学化学与环境学院工作。主讲《固体废物处理与处置》、《环境法律法规》、《环境工程施工与概预算》、《科技论文写作》等课程。现主要从事碳纳米材料环境效应、生物炭材料的开发及其对污染物的去除、水土污染防治等研究。在Bioresour
Technol.、Green
Chemistry、Science of the Total
Environment、Chemosphere等期刊发表SCI论文。
2018.09—2024.06 中国地质大学(北京) 地球科学与资源学院 地球化学 硕博连读2023.01—2024.01 阿尔伯塔大学 环境地球化学 联合培养博士2014.09—2018.06 成都理工大学 地球科学学院 资源勘查工程(固体矿产) 本科2024.07-至今 西南民族大学 化学与环境学院教师- 中央高校基本科研业务费-创新型研究生科研能力培养项目-“生物炭老化作用对土壤中磺胺吡啶锁定效应研究”-(编号2652019193)
- 2021年度研究生创新资助项目-重点项目-“生物炭对土壤中磺胺吡啶-Cu(II)共存污染的修复研究”(ZD2021YC046)
- 中央高校基本科研业务费-创新型研究生科研能力培养项目“氮磷掺杂生物炭活化过硫酸盐高效降解典型抗生素”-(编号2-9-2021-104)(2652021104)
四川省高校教师岗前培训优秀奖(2024)
北京市优秀毕业生(2024)
CSC国家公派留学奖学金(2022)
博士生国家奖学金(2021)
1)第一作者
Tang, W., Jing, F., Laurent, Z., Liu, Y., Chen, J., 2021.
High-temperature and freeze-thaw aged biochar impacts on sulfonamide sorption
and mobility in soil. Chemosphere. 276, 130106. (2021, IF=8.941,JCR 分区 Q1) doi.org/10.1016/j.chemosphere.2021.130106Tang, W., Zanli, B., Chen, J., 2021. O/N/P-doped biochar
induced to enhance adsorption of sulfonamide with coexisting Cu2+/
Cr (VI) by air pre-oxidation. Bioresour Technol. 341, 125794. (2021,
IF=11.889,JCR 分区 Q1)Tang, W., Zanli, B. L. G. L., Jing, F., Hu, T., Chen, J.
(2023). Low temperature pyrolytic biochar is a preferred choice for
sulfonamide-Cu (II) contaminated soil remediation in tropical climate region.
Science of The Total Environment, 162792. (2023, IF=10.754,JCR 分区 Q1)Tang, W., Alessi, D., Wang, T., Wu, J., Li, S., Konhauser,
K. O., Li, Z., Chen, J*., 2024. Efficient removal of sulfonamides in complex
aqueous environments by N, P-co-doped graphitic biochar: The crucial role of P2O5.
Green Chemistry.( DOI: 10.1039/D3GC04731H).Zanli, B. L. G. L., Tang, W., Chen, J., 2022. N-doped and activated
porous biochar derived from cocoa shell for removing norfloxacin from aqueous
solution: Performance assessment and mechanism insight. Environmental Research,
113951. (2022, IF=8.431,JCR 分区 Q1)Jing, F., Guan, J., Tang, W., Chen, J.,
2022. Mechanistic insight into adsorptive removal of ionic
NOR and nonionic DEP organic contaminates by clay-biochar composites.Environmental Pollution, 119881. (2021, IF= 9.988,JCR 分区 Q1)Wu, J., Wang, T., Liu, Y., Tang, W., Geng, S., Chen, J., 2022.
Norfloxacin adsorption and subsequent degradation on ball-milling tailored
N-doped biochar. Chemosphere, 135264. (2021, IF=8.941,JCR 分区 Q1)Zanli, B. L. G. L., Gbossou, K. C., Tang, W., Kamoto, M., Chen, J.,
2022. A review of biochar potential in Cote d’Ivoire in light of the challenges
facing Sub-Saharan Africa. Biomass and Bioenergy, 165, 106581. (2022, IF=5.774,JCR 分区 Q1)Cai, S., Wang, T., Wu, C., Tang, W., Chen, J., 2023. Efficient
degradation of norfloxacin using a novel biochar-supported CuO/Fe3O4combined with peroxydisulfate: Insights into enhanced contribution of
nonradical pathway. Chemosphere, 138589. (2021, IF=8.941,JCR 分区 Q1)Li, Z., Hu, Y., Chen, Y., Fang, S., Liu, Y., Tang, W., Chen, J.,
2023. Reciprocal effects of NOM and solution electrolyte ions on aggregation of
ferrihydrite nanoparticles. Chemosphere, 332, 138918. (2021, IF=8.941,JCR 分区 Q1)