龙琭璐

一、基本情况

二、工作经历：

2018/01-2022/12 四川农业大学环境学院 生态环境研究所 讲师

2023/01-至今 四川农业大学环境学院 环境科学系 副教授

三、研究方向：

1. 养殖废水尾水资源化探索

2. 便携式水处理设备定制化开发

3. 环境机器学习

欢迎具有化学、工程设计、计算机专业背景的同学或者对各类编程、大数据模型等相关领域感兴趣的本科生（研究生）同学联系

四、学术成果：

1. 论文

[1] Na Huang, Yating Wang,Chenxue Ling, Chen Chao, Gang Yanga, Lulu Long, Amorphous manganese silicate/PVDF membrane in the diffusive gradient in a thin-film for selective monitoring of lead, Chem. Commun.2025,30,5601-5604 (通讯作者，Nature index)

[2].Lulu Long*, Jingrong Li , Ting Hou , Min Liu , Yuhuan Lin , Xingwei Zhu , Chao Chen , Gang Yang*, Jingsong He, Removal of antibiotics from aquaculture wastewater using a continuous flow/EC/PMS coupled system, Chemical Engineering Journal, 2024, 499, 156278-156293 (第一作者，中国科学院1区TOP)

[3].Lai Min Zhang, Lulu Long*, Qi Ran Zhu, Chao Chen, Min Xu, Jun Wu, Gang Yang, Mechanism and Ecological Environmental Risk Assessment of Peroxymonosulfate for the Treatment of Heavy Metals in Soil, Science of the Total Environment, 2024, 926:171717-171727 (通讯作者，中国科学院1区TOP)

[4].Linlin Su, Lulu Long*, Wending Wang, Zhenshuang Kuang, Xinyu Zhou, Chao Chen, Min Xu, Yan He, and Gang Yang*, Mn-Enhanced Cobalt Silicate-Activated Peroxymonosulfate for Tetracycline Degradation: Inheriting Merit and Offsetting Deficiency of Oxygen Vacancies, ACS EST Engineering, 2023, 3, 1614-1625

[5].Lulu Long*, Na Huang, Xin Liu, Li Gong, Min Xu, Shirong Zhang, Chao Chen, Jun Wu and Gang Yang*, Enhanced silicate remediation in cadmium-contaminated alkaline soil: Amorphous structure improves adsorption performance, Journal of Environmental Management, 2023, 326,116760  (第一作者，中国科学院1区TOP)

[6].Xinghua Pang, Chao Chen, Jie Sun, Haiquan Zhan, Yinlong Xiao, Junzhuo Cai, Xiaoyu Yu, Yan Liu, Lulu Long*, Gang Yang*, Effects of complex pollution by microplastics and heavy metals on soil physicochemical properties and microbial communities under alternate wetting and drying conditions, Journal of Hazardous Materials, 2023, 458, 131989-132003 (共同通讯作者，中国科学院1区TOP)

[7].Zilin He , Lulu Long , Han Yuan, Han Pang, Yating Wang*, Liang Ye, Min Xu, Chao Chen, Yan Liu, Yinlong Xiao, Changlian Xu, Jun Wu*, Gang Yang*, Remediation of heavy-metal-contaminated soil with two organic acids: Washing efficiency, recovery performance, and benefit analysis, Journal of Cleaner Production, 2023, 393, 136235-136245 (共同通讯作者，中国科学院1区TOP)

[8].Micro-mechanism of multi-pathway activation peroxymonosulfate by copper-doped cobalt silicate: the dual role of copper，Applied catalysis B: Environment，2022，309，121276-121284（第1作者，IF=24.3，中国科学院1区TOP）。

[9]. Assessing sediment organic pollution via machine learning models and resource performance, Bioresource Technology, 2022, 361,127770-127783 (通讯作者，IF-2022=11.889, 中国科学院1区TOP)

[10]. A novel strategy for promoting PMS activation: Enhanced utilization of side reactions, Separation and Purification Technology, 2022, 297,121432-121445 (第一作者，IF-2022=9.136, 中国科学院1区TOP)

[11]. Staged and efficient removal of tetracycline and Cu2+ combined pollution: A designed double-chamber electrochemistry system using 3D rGO, Journal of Cleaner Production, 2021, 305,127101-127112 (第一作者，IF-2021=9.29, 中国科学院1区TOP)

[12]. A synergistic system of electrocatalytic-anode/α-MnO2/peroxymonosulfate for removing combined pollution of tetracycline and Cr(VI)，Chemical Engineering Journal, 2021，423,130284-130295 (通讯作者，IF-2021=13.27,中国科学院1区TOP )

[13]. The silicon active sites driven by oxygen vacancies in iron silicate for activating peroxymonosulfate, Journal of Colloid and Interface Science, 2022, 628,955-965 (通讯作者，IF-2022=9.965, 中国科学院2区TOP)

[14]. Layer-controlled growth of MoS2 on self-assembled flower-like Bi2S3 for enhanced photocatalysis under visible light irradiation. NPG Asia Materials, 2016, 8, e263 (第一作者，IF-2016=8.77, 中国科学院1区TOP)

[15]. Boosted charge transfer from single crystalline titanium nanotubes for a dual-purpose PEC system. Int. J. Hydrogen. Energy., 2019, 44, 17622-17629 (第一作者，IF-2019=4.94，中国科学院2区TOP)

[16]. A robust cocatalyst Pd4S uniformly anchored onto Bi2S3 nanorods for enhanced visible light photocatalysis. J. Mater. Chem. A., 2015,3, 4301-4306 (第一作者，IF-2015=7.44， 中国科学院1区TOP)

[17]. A Green approach for preparing doped TiO2 single crystals. ACS Appl. Mater. Inter. 2014, 6, 16712-16720 (第一作者，IF-2014=6.72, 中国科学院1区TOP）

[18]. Ultrafine and well-dispersed nickel nanoparticles with hierarchical structure for catalytically breaking boron−hydrogen bond. ACS Appl. Nano Mater. 2018, 1, 6800-6870 （第一作者，IF-2018=4.9，中国科学院2区，）

[19]. Enhanced properties of magnetic ultralight pear sponge assisted by Fenton-like reaction for oil-water separation. Journal of the Taiwan Institute of Chemical Engineers. 2021, 44, 17622-17629 (通讯作者，IF-2021=5.88）

[20]. Multiple Strategies to Enhance Degradation of Antibiotic by K2−xMn8O16 Nanowire Hydrogels for Activating Peroxymonosulfate. Catalysis Letter, 2020, 020, 00376-00385 (通讯作者，IF-2020=2.48）

[21]. Electrochemical degradation of refractory pollutants using TiO2 single crystals exposed by high-energy {001} facets. Water Research, 2014, 66, 273-282 （并列第一作者，IF-2014=5.323, 中国科学院一区TOP）

[22]. Layered cobalt nickel silicate hollow spheres as a highly-stable. Applied Energy, 2014, 153, 63-69（并列第一作者，IF-2014=5.261, 中国科学院一区TOP）

[23]. Electrochemical degradation of refractory pollutants using TiO2 single crystals exposed by high-energy {001} facets. Chem. Commun., 2013, 03, 04227（并列第一作者，IF-2013=6.378, 中国科学院一区TOP）

2.专利

[1].发明专利, 原位选择性监测铅有效态的薄膜梯度扩散方法, 2023-07-11, 中国, CN202310845397.3,排名第1

[2]发明专利，一种畜禽废水尾水处理系统, 2022-05-20, 中国, ZL202010054518.9, 排名第1

[3]. 发明专利，一种新型水体沉积物的催化剂制备方法、应用及建模方法, 2022-09-13, 中国, ZL202210147109.2, 排名第1

[4]. 发明专利，一种钒钛废渣粉及其制备方法和其去除抗生素的方法, 2023-01-13, 中国, ZL2020110852973.0, 排名第1

[5].俞汉青，张爱勇，龙琭璐。发明专利，一种利用废弃电解液制备高活性TiO2纳米单晶用于水处理的新方法，中国，专利号：ZL 201310652090.8

五、学生指导:

指导大学生国家级双创项目 1项

指导本科生优秀学士学位论文 1 篇（2020）

指导学生获2021年“互联网+”大学生创新创业大赛省级铜奖

指导学生获十七届“挑战杯”全国大学生课外学术科技作品竞赛校二等奖

指导硕士生优秀学位论文 1 篇（2021），获2022年硕士生国家奖学金1人。

六、科研项目：

1、光-电双室反应器耦合处理养殖废水尾水抗生素重金属复合污染，21806115主持，国家自然科学基金青年项目

2、电催化-吸附技术分步处理水中抗生素重金属复合污染，20YYJC2565，主持，四川省科技厅，应用基础项目

3、川猪养殖污染控制与废弃物资源化利用，2021ZDZX0012，主研，四川省科技厅，重大科技专项子课题

4、农田微塑料-重金属复合污染特征与防控技术研究，22ZDYF0126，主研，四川省科技厅，关键技术攻关子课题