当前位置: 首页 > 团队队伍 > 副教授 > 正文 >

彭佳丽

时间: 2022-09-20 点击次数:


一、基本信息

姓名:彭佳丽

性别:女

最高学位:工学博士

职称:特聘副教授

主要研究方向:有机污染物的氧化去除与环境修复

个人前期研究主要集中在碳材料的调控与界面反应机制;天然矿物的筛选与催化氧化机理;高级氧化技术的设计与开发方面。目前正积极拓展农业废水中新型有机物的检测与去除。

办公电话:86291132

电子邮箱:pengjiali@sicau.edu.cn

二、学习及工作经历

2012—2016,烟台大学,环境工程,工学学士

2016—2019,四川大学,环境工程,工学硕士

2019—2022,四川大学,环境科学与工程,工学博士

2022—至今,永利3885网站(中国)有限公司,生态环境研究所

三、主要成果

(一)代表性论文、著作及教材

[1] Peng, J.; Zhou, P.; Zhou, H.; Liu, W.; Zhang, H.; Zhou, C.; Lai, L.; Ao, Z.; Su, S.; Lai, B.*, Insights into the Electron-Transfer Mechanism of Permanganate Activation by Graphite for Enhanced Oxidation of Sulfamethoxazole. Environmental Science & Technology 2021, 55 (13), 9189-9198. (SCI一区,IF=11.357,封面论文)

[2] Peng, J.; Zhou, H.; Liu, W.; Ao, Z.; Ji, H.; Liu, Y.*; Su, S.; Yao, G.; Lai, B.*, Insights into heterogeneous catalytic activation of peroxymonosulfate by natural chalcopyrite: pH-dependent radical generation, degradation pathway and mechanism. Chemical Engineering Journal 2020, 397, 125387. (SCI一区,IF=16.744,热点论文、高被引论文)

[3] Peng, J.; Lu, X.; Jiang, X.; Zhang, Y.; Chen, Q.; Lai, B.*; Yao, G., Degradation of atrazine by persulfate activation with copper sulfide (CuS): Kinetics study, degradation pathways and mechanism. Chemical Engineering Journal 2018, 354, 740-752. (SCI一区,IF=16.744)

[4] Peng, J.; Lai, L.; Jiang, X.; Jiang, W.; Lai, B.*, Catalytic ozonation of succinic acid in aqueous solution using the catalyst of Ni/Al2O3 prepared by electroless plating-calcination method. Separation and Purification Technology 2018, 195, 138-148. (SCI一区,IF=9.136)

[5] Peng, J.; Yan, J.; Chen, Q.; Jiang, X.; Yao, G.; Lai, B.*, Natural mackinawite catalytic ozonation for N, N-dimethylacetamide (DMAC) degradation in aqueous solution: Kinetic, performance, biotoxicity and mechanism. Chemosphere 2018, 210, 831-842. (SCI二区,IF=8.943)

(6) Peng, J.; He, Y.; Zhou, C.; Su, S.; Lai, B.*, The carbon nanotubes-based materials and their applications for organic pollutant removal: A critical review. Chinese Chemical Letters 2021, 32 (5), 1626-1636. (SCI二区,IF=8.455,高被引论文)

[7] Yan, J.; Peng, J.; Lai, L.; Ji, F.; Zhang, Y.; Lai, B.*; Chen, Q.; Yao, G.; Chen, X.; Song, L., Activation CuFe2O4 by Hydroxylamine for Oxidation of Antibiotic Sulfamethoxazole. Environmental Science & Technology 2018, 52 (24), 14302-14310. (SCI一区,IF=11.357)

[8] Zhou, H.; Peng, J.; Li, J.; You, J.; Lai, L.; Liu, R.; Ao, Z.; Yao, G.; Lai, B.*, Metal-free black-red phosphorus as an efficient heterogeneous reductant to boost Fe3+/Fe2+ cycle for peroxymonosulfate activation. Water Research 2021, 188, 116529. (SCI一区,IF=13.4)

[9] Hong, Y.; Peng, J.; Zhao, X.; Yan, Y.; Lai, B.*; Yao, G., Efficient degradation of atrazine by CoMgAl layered double oxides catalyzed peroxymonosulfate: Optimization, degradation pathways and mechanism. Chemical Engineering Journal 2019, 370, 354-363. (SCI一区,IF=16.744)

[10] Lai, L.; Peng, J.; Ren, Y.; Li, J.; Zhang, Y.; Lai, B.*, Catalytic Ozonation of Succinic Acid in Aqueous Solution by Co/Al2O3-EPM: Performance, Characteristics, and Reaction Mechanism. Environmental Engineering Science 2018, 35 (12), 1309-1321. (SCI四区,IF=2.172)

[11] Yan, J.; Li, J.; Peng, J.; Zhang, H.; Zhang, Y.; Lai, B.*, Efficient degradation of sulfamethoxazole by the CuO@Al2O3 (EPC) coupled PMS system: Optimization, degradation pathways and toxicity evaluation. Chemical Engineering Journal 2019, 359, 1097-1110. (SCI一区,IF=16.744)

[12] Zhang, R.; Wan, Y.; Peng, J.; Yao, G.; Zhang, Y.; Lai, B.*, Efficient degradation of atrazine by LaCoO3/Al2O3 catalyzed peroxymonosulfate: Performance, degradation intermediates and mechanism. Chemical Engineering Journal 2019, 372, 796-808. (SCI一区,IF=16.744)

[13] Sun, M.; Zhou, P.; Peng, J.; He, C.; Du, Y.; Pan, Z.; Su, S.; Dong, F.; Liu, Y.*; Lai, B., Insights into peroxymonosulfate activation under visible Light: Sc2O3@C3N4 mediated photoexcited electron transfer. Chemical Engineering Journal 2022, 435, 134836. (SCI一区,IF=16.744)

[14] Ren, Y.; Li, J.; Peng, J.; Ji, F.; Lai, B.*, Strengthening the Catalytic Activity for Ozonation of Cu/Al2O3 by an Electroless Plating–Calcination Process. Industrial & Engineering Chemistry Research 2018, 57 (6), 1815-1825. (SCI三区,IF=4.326)

[15] Lu, X.; Qiu, W.*; Peng, J.; Xu, H.; Wang, D.; Cao, Y.; Zhang, W.; Ma, J.*, A Review on Additives-assisted Ultrasound for Organic Pollutants Degradation. Journal of Hazardous Materials 2021, 403, 123915. (SCI一区,IF=14.244)

[16] Zhang, P.; Zhou, P.*; Peng, J.; Liu, Y.; Zhang, H.; He, C.; Xiong, Z.; Liu, W.; Lai, B.*, Insight into metal-free carbon catalysis in enhanced permanganate oxidation: Changeover from electron donor to electron mediator. Water Research 2022, 219, 118626. (SCI一区,IF=13.4)

[17] Zhou, C.; Zhou, H.; Yuan, Y.; Peng, J.; Yao, G.; Zhou, P.; Lai, B.*, Coupling adsorption and in-situ Fenton-like oxidation by waste leather-derived materials in continuous flow mode towards sustainable removal of trace antibiotics. Chemical Engineering Journal 2021, 420, 130370. (SCI一区,IF=16.744)

[18] Luo, M.; Zhang, H.*; Zhou, P.; Peng, J.; Du, Y.; Xiong, Z.; Lai, B.*, Graphite (GP) induced activation of ferrate(VI) for degradation of micropollutants: The crucial reduction role of carbonyl groups on GP surface. Journal of Hazardous Materials 2022, 434, 128827. (SCI一区,IF=14.244)

[19] Luo, M.; Zhang, H.; Zhou, P.; Xiong, Z.; Huang, B.; Peng, J.; Liu, R.; Liu, W.; Lai, B.*, Efficient activation of ferrate(VI) by colloid manganese dioxide: Comprehensive elucidation of the surface-promoted mechanism. Water Research 2022, 215, 118243. (SCI一区,IF=13.4)

[20] 魏健,彭佳丽,敖蒙蒙,李丹,李明月,赖波. 一种废旧电池正极材料在催化剂中的应用、催化剂及其制备方法(已授权,中国,ZL 2020 1 0823212.5

(二)科研项目

[1] 亲疏水调控的碳材料活化过硫酸盐降解酚类污染物的界面反应机制,国家自然科学基金青年科学基金项目,主持

[2] 公司人才引进项目,主持

(三)获奖

曾获教育部国家奖学金、第八届唐孝炎环境科学创新奖学金、2021学年四川大学博士生创新奖学金、2021年川渝科技学术大会优秀论文三等奖、四川大学一等学业奖学金、四川大学优秀员工、四川大学优秀毕业研究生等

(四)学术会议

[1] 彭佳丽,石墨活化高锰酸盐强化氧化磺胺甲恶唑的电子转移机理研究,第五届全国水处理与循环利用学术会议,苏州,20214

[2] 彭佳丽,硫化亚铁催化臭氧降解水中二甲基乙酰胺的研究,第二届铁环境化学及污染控制技术研讨会,武汉,201810

 

 

上一篇:卢晓辉

下一篇:黄丽萍