教育背景
2019/08-2020/08,西班牙Universidad de Cordoba,访问学者
2010/09–2015/06, 华南理工大学,应用化学,博士,导师:李映伟
2006/09–2010/06, 华南理工大学,应用化学,学士
工作履历
2015/10至今华南农业大学,威尼斯欢乐娱人v3676土壤科学系,讲师
学术兼职
担任Scientific Reports, Applied catalysis A: General等期刊审稿人
研究领域
饲料添加剂(Cu2+、Zn2+、有机砷等)及兽药残留(抗生素)的生态环境效应;
环境功能材料的制备,主要包括碳基材料、磁性材料的吸附催化降解有机污染物
奖励与荣誉
主持项目
科研项目
1.国家自然科学基金(青年项目),21707037,MOFs衍生FexOy-N/C复合材料的可控合成及吸附痕量抗生素的机制,2018/01-2020/12,25万元,结题,主持;
2.华南农业大学青年科技人才培育专项基金,2900-216253,MOFs衍生掺杂型碳基材料的设计合成及其典型抗生素吸附应用,2016/05-2017/12,20万元,结题,主持;
3.威尼斯欢乐娱人v3676院长基金,ZHXY2015A09,MOFs衍生碳基材料的制备及其抗生素吸附性能研究,2016/01-2017/12,2万元,结题,主持
4.财政部和农业农村部国家现代农业产业技术体系,CARS-32,2021/01-2024/12,280万元,在研,参加
教改项目
华南农业大学2019年度教育教学改革与研究项目,JG19125,基于项目驱动的《资源环境分析》教学模式探索,2019/06-2021/05,0.4万元,在研,主持
学术成果
一、发表论文:
1. Fan, S.Y.; Qu, Y.F.; Yao, L.X.; Ren, J.H.; Luque, R.; He, Z.L.; Bai, C.H.*; 2021. MOF-derived cluster-shaped magnetic nanocomposite with hierarchical pores as an efficient and regenerative adsorbent for chlortetracycline removal, Journal of Colloid and Interface Science 586, 433-444.
2. Ou, Y.C., Yao, L.X., Li, Y.C., Bai, C.H.*, Luque, R., Peng, G.X.*, 2020. Magnetically separable Fe-MIL-88B_NH2 carbonaceous nanocomposites for efficient removal of sulfamethoxazole from aqueous solutions. Journal of colloid and interface science 570, 163-172.
3. Bai, C.H., Li, A.Q., Yao, X.F., Liu, H.L., Li, Y.W.*, 2016. Efficient and selective aerobic oxidation of alcohols catalysed by MOF-derived Co catalysts. Green Chemistry 18, 1061-1069.
4. Bai, C.H., Yao, X.F., Li, Y.W.*, 2015. Easy Access to Amides through Aldehydic C-H Bond Functionalization Catalyzed by Heterogeneous Co-Based Catalysts. Acs Catalysis 5, 884-891.
5. Bai, C.H., Jian, S.P., Yao, X.F., Li, Y.W.*, 2014. Carbonylative Sonogashira coupling of terminal alkynes with aryl iodides under atmospheric pressure of CO using Pd(II)@MOF as the catalyst. Catalysis Science & Technology 4, 3261-3267.
6. Yao, L.X., Carey, M.P., Zhong, J.W., Bai, C.H., Zhou, C.M., Meharg, A.A.*, 2019. Soil attribute regulates assimilation of roxarsone metabolites by rice (Oryza sativa L.). Ecotoxicology and Environmental Safety 184, 109660.
7. Yao, L.X.*, Huang, L.X., Bai, C.H., Zhou, C.M., He, Z.H., 2019. Effect of roxarsone metabolites in chicken manure on soil biological property. Ecotoxicology and Environmental Safety 171, 493-501.
8. Shi, H., Bai, C.H., Luo, D.L., Wang, W., Zhou, C.M., Meharg, A.A., Yao, L.X.*, 2019. Degradation of tetracyclines in manure-amended soil and their uptake by litchi (Litchi chinensis Sonn.). Environmental Science and Pollution Research 26, 6209-6215.
9. Yao, L.X.*, Huang, L.X., Bai, C.H., He, Z.H., Zhou, C.M., 2017. Soil calcium significantly promotes uptake of inorganic arsenic by garland chrysanthemum (ChrysanthemumL coronarium) fertilized with chicken manure bearing roxarsone and its metabolites. Environmental Science and Pollution Research 24, 16429-16439.
10. Yao, L.X.*, Huang, L.X., He, Z.H., Zhou, C.M., Lu, W.S., Bai, C.H., 2016. Delivery of roxarsone via chicken diet -> chicken -> chicken manure -> soil -> rice plant. Science of the Total Environment 566, 1152-1158.
11. 白翠华,姚丽贤,李博, 2020. 高校公选课《矿物资源与宝石鉴赏》的教学探索与思考,教育教学论坛 29, 208-210.