李鹏

博士，讲师，硕士研究生导师

研究方向：新污染物环境分析方法和环境行为

Email：Lipeng@hbmzu.edu.cn

一、基本情况

李鹏，男，1994年4月出生，湖北利川人，中共党员。博士，讲师，365电子娱乐官方网站硕士研究生导师。主要研究方向为新污染物的环境分析方法和环境行为。主持365电子娱乐官方网站博士高层次人才引进启动基金项目，湖北省教育厅指导项目，参与基金委国家重大科研仪器研制项目，重大项目，面上项目等多项。以第一作者在本领域著名SCI期刊Environmental Science & Technology、Analytical Chemistry、Journal of Environmental Sciences等发表多篇综述和研究论文。获中国发明专利授权1项，日本和德国发明专利授权各1项。

二、教育背景与工作经历

教育经历：

2012.09 - 2016.06，365电子娱乐官方网站，环境科学，理学学士

2016.09 - 2020.06，中国科学院生态环境研究中心，环境科学，理学硕士

2020.09 - 2024.06，中国科学院生态环境研究中心，环境科学，理学博士

工作经历：

2024.12-至今，365电子娱乐官方网站，化学与环境工程学院，专任教师

三、教学工作

主讲本科生《大气污染控制工程》《环境地学》《环境工程力学》等课程。

四、科研工作

1. 科研项目

[1] 365电子娱乐官方网站高层次人才引进科研启动项目，BS25031，2025/01-2027/12，硒与微纳塑料相互作用及其生物其有效性，10万，在研，主持。

[2] 国家自然科学基金重大项目，42192571，水环境中人工纳米污染物的识别、赋存及溯源，2022/01-2026/12，410万元，在研，参与。

[3] 国家自然科学基金委员会面上项目, 22076198, 环境中纳米硒肥料的转化及其对汞的形态和植物吸收的影响, 2021/01 -2024/12, 63万元, 结题, 参与。

[4] 中科院生态环境研究中心碳达峰碳中和自主部署专项项目，微纳有机颗粒物对海洋固碳/储碳的影响及其机制研究（RCEES-TDZ-2021-14），2021/11-2023/10，30万元，结题，参与。

[5] 国家自然科学基金委员会重大科研仪器研制项目，微纳塑料分离测定系统的研制，21827815，2019/01-2023/12，740万元，结题，参与。

2. 学术论文

[1] Li Peng, Lai Yujian, Zheng Ronggang, Li Qingcun, Sheng Xueying, Yu Sujuan, Hao Zhineng, Cai Yaqi, Liu Jingfu*. Extraction of common small microplastics and nanoplastics embedded in environmental solid matrices by tetramethylammonium hydroxide digestion and dichloromethane dissolution for Py-GC-MS determination. Environmental Science & Technology, 2023, 57: 12010-12018.（SCI，中科院一区，TOP）

[2] Li Peng#, Lai Yujian#, Li Qingcun, Dong Lijie, Tan Zhiqiang, Yu Sujuan, Chen Yongsheng, Sharma Virender K, Liu Jing Fu*, Jiang Guibin. Total organic carbon as a quantitative index of micro- and nano-plastic pollution. Analytical Chemistry, 2022, 94 (2): 740-747.（SCI，中科院一区，TOP）

[3] Li Peng, Li Qingcun, Hao Zhineng, Yu Sujuan*, Liu Jingfu. Analytical methods and environmental processes of nanoplastics. Journal of Environmental Sciences, 2020, 94: 88-99.（SCI，中科院二区，封面文章）

[4] Xiang Ying, Lin Weike, Guo Shuoshi, Wei Jinfeng, Li Peng, Jin Li, Wang Fang*. Effects of co-existing substances on phosphorus recovery from swine wastewater via struvite crystallization with a carbon felt cathode. Journal of Environmental Management, 2026, 404: 129430.

[5] Li Qingcu，Bai Qingsheng, Zheng Ronggang, Li Peng, Liu Rui , Yu Sujuan*, Liu Jingfu*.  Mass concentration, spatial distribution, and risk assessment of small microplastics (1-100 μm) and nanoplastics (<1 μm) in the surface water of Taihu Lake, China. Environmental Research, 2025, 285: 122214.

[6] Zheng Ronggang, Li Peng, Bai Qingsheng, Li Qingcun, Hao Zhineng, Yu Sujuan*, Cai Yaqi, Liu Jingfu*. Spatial distribution, temporal variations and source of titanium dioxide nanoparticles in Taihu Lake, China, Science of The Total Environment, 2024, 951: 175481

[7] Zheng Ronggang, Yu Sujuan, Yang Rui, Li Peng, Li Qingcun, Li Li, Chen Yuhang,   Cai Yaqi, Liu Jingfu*. Highly selective capture and efficient concentration of trace titanium dioxide nanoparticles in environmental waters by phosphorylated ferroferric oxide. Environmental Science: Nano, 2024, 11, 2541-2549.

[8] Li Qingcun, Sun Helin, Bai Qingsheng, Li Peng, Lai Yujian, Yu Sujuan, Liu Xing, Yao Ziwei, Cai Yaqi, Liu Jingfu*. Spatial distribution of polystyrene nanoplastics and small microplastics in the Bohai Sea, China. Science of The Total Environment, 2023, 881: 163222.

[9] Li Li, Yu Sujuan, Zheng Ronggang, Li Peng, Li Qingcun, Liu Jingfu*. Removal of iodide anions in water by silver nanoparticles supported on polystyrene anion exchanger. Journal of Environmental Sciences, 2022, 128: 45-54.

[10] Li Qingcun, Lai Yujian, Li Peng, Liu Xing, Yao Ziwei, Liu Jingfu, Yu Sujuan*. Evaluating the occurrence of polystyrene nanoparticles in environmental waters by agglomeration with alkylated ferroferric oxide followed by micropore membrane filtration collection and Py-GC/MS analysis. Environmental Science & Technology, 2022, 56(12): 8255-8265.

[11] Zheng Ronggang, Li Qingcun, Li Peng, Li Li, Liu Jingfu*. Total organic carbon content as an index to estimate the sorption capacity of micro- and nano-plastics for hydrophobic organic contaminants. Chemosphere, 2022, 313: 137374.

[12] Li Qingcun, Bai Qingsheng, Sheng Xueying, Li Peng, Zheng Ronggang, Yu Sujuan, Liu Jingfu *. Influence of particle characteristics, heating temperature and time on the pyrolysis product distributions of polystyrene micro- and nano-plastics. Journal of Chromatography A, 2022, 1682: 463503.

[13] Lai Yujian, Dong Lijie, Sheng Xueying, Li Qingcun, Li Peng, Hao Zhineng,Yu Sujuan, Liu Jingfu*. Swelling-Induced Fragmentation and Polymer Leakage of Nanoplastics in Seawater. Environmental Science & Technology， 2022, 56 (24), 17694–17701.

[14] Yu Sujuan, Li Qingcun, Shan Wanyu, Hao Zhineng, Li Peng, Liu Jingfu*. Heteroaggregation of different surface-modified polystyrene nanoparticles with model natural colloids. Science of The Total Environment, 2021, 784: 147190.

[15] Li Qingcun, Lai Yujian, Yu Sujuan, Li Peng, Zhou Xiaoxia, Dong Lijie, Liu Xing, Yao Ziwei, Liu Jingfu*. Sequential isolation of microplastics and nanoplastics in environmental waters by membrane filtration, followed by cloud point extraction. Analytical Chemistry, 2021, 93(10): 4559-4566.

[16] Lai Yujian, Dong Lijie, Li Qingcun, Li Peng, Liu Jingfu*. Sampling of micro- and nano-plastics in environmental matrixes, TrAC-Trends in Analytical Chemistry, 2021, 145: 116461.

[17] Lai Yujian, Dong Lijie, Li Qingcun, Li Peng, Hao Zhineng, Yu Sujuan, Liu Jingfu*. Counting nanoplastics in environmental waters by single particle inductively coupled plasma mass spectroscopy after cloud-point extraction and in situ labeling of gold nanoparticles. Environmental Science & Technology, 2021. 55 (8): 4783-4791.

[18] He Zuoliang, Liu Rui, Shan Wanyu, Zhao Huachao, Lai Yujian, Li Peng, Liu Jingfu*. Stabilizing black phosphorus via covalent functionalization of solvent formamide . Advanced Materials Interfaces, 2021，8(11): 2002247.

[19] Lai Yujian, Sheng Xueying, Dong Lijie, Li Peng, Li Qingcun, Yu Sujuan, Zhou Qingxiang, Liu Jingfu*. Digestive elimination of coexisting microplastics for determination of particulate black carbon in environmental waters. Analytical Chemistry, 2021, 93 (32): 11184-11190.

3. 授权发明专利及成果转化

[1] 刘景富，李鹏，谭志强，李庆存。基于总有机碳定量测定水环境中微纳塑料总量的方法；专利号：ZL 202010095438.8。（中国发明专利，已授权）

[2] Liu Jingfu, Li Peng, Tan Zhiqiang, Li Qingcun. A Method for Quantifying Micro- and Nano- Plastics in Environmental Waters by Total Organic Carbon Determination; Patent No 7270306.（日本发明专利，已授权）

[3] Liu Jingfu, Li Peng, Tan Zhiqiang, Li Qingcun. A Method for Quantifying Micro- and Nano- Plastics in Environmental Waters by Total Organic Carbon Determination; Patent No 112020006738.（德国发明专利，已授权）

[4] 刘景富，李庆存，于素娟，李鹏，谭志强；定量测定水环境中微塑料的方法；专利申请公布号：CN111257464A。（中国发明专利，已公布）

[5] 于素娟，杨蕊，郑荣刚，李鹏，刘景富；提取分离土壤中不同形态硒的方法及应用；专利号：ZL 2023 1 0680747.5。 （中国发明专利，已授权）

4. 学术会议

[1] 刘景富*，李鹏，盛雪莹，李鹏辉；微纳塑料分析方法及其应用新进展。第十二届全国环境化学大会，2023年，武汉

[2] 李鹏，刘景富*；基于总有机碳的环境水样中微纳塑料总量分析方法研究；第十一届全国环境化学大会，2022年，哈尔滨

[3] 李鹏，李庆存，郑荣刚，刘景富*；基于总有机碳的微纳塑料定量分析方法研究。第三届全国环境微塑料污染与管控学术研讨会，2021年，青岛

[4] 李庆存，李鹏，于素娟，刘景富*；环境水样中微纳塑料的膜分离富集与热裂解-气相色谱-质谱联用测定；第十届全国环境化学大会，2019年，天津