科研项目:

1. 上海市领军人才（海外）青年人才项目，2022-2025，主持，在研

2. 教育部首批博士后海外引才专项，2023-2026，主持，在研

3. 国家自然科学基金（青年），基于斑马鱼炎症性肠病模型的聚苯乙烯微纳塑料毒性效应与机制研究，2024-2026，主持，在研

4. 同济大学“医学+X”交叉研究重点培育项目，2025-2027，主持，在研

5. williamhill官网学科交叉联合攻关项目，多环芳烃混合暴露诱导大脑认知和情绪障碍的机制研究，2023-2025，主持，在研

6. williamhill官网“中德合作2.0战略”支撑培育计划，环境对人类微生物组及健康的影响研究，2023-2025，主持，在研

教学:

1. 本科生课程《文献检索与论文写作》

2. 研究生课程 《研究生学术进阶之路》《环境纳米科学与技术》《环境仪器分析》

代表性论文:

 Li, G., Rong, J., Xu, X., Kwak, E., Wang, S., Qu, G., Lin, S., Peng, G.*. Distinct Effects between Polystyrene Micro- and Nanoplastics: Exacerbation of Adverse Outcomes in Inflammatory Bowel Disease-like Zebrafish and Mice. ACS Nano 2025, 19, 15081−15099.

Kwak, E., Peng, G.*. Human Organoid-based In vitro Modelling for Environmental Toxicology. Environ. Sci. Technol. Lett. 2024, 11, 503–510.

Wang, Y., Liang, X., Andrikopoulos, N., Tang, H., He, F., Yin, X., Li, Y., Ding, F., Peng, G.*, Mortimer, M.*, Ke, P.C.*. Remediation of Metal Oxide Nanotoxicity with a Functional Amyloid. Advanced Science 2024, 2310314.

Peng, G., Sinkko H.M., Alenius H., Lozano N., Kostarelos K., Bräutigam L., and Fadeel B. Graphene oxide elicits microbiome-dependent type 2 immune responses via the aryl hydrocarbon receptor. Nature Nanotechnology 2023,18, 42-48. 

Peng, G., Gonzálezc, V., Vázquez, E., Lundberg, J.O. and Fadeel, B. Two-dimensional molybdenum disulfide nanosheets evoke nitric oxide-dependent antibacterial effects. Nanoscale 2023, 15 (43), 17409-17421.

Peng, G., Keshavan, S., Delogu, L., Shin, Y., Casiraghi, C., Fadeel, B. Two‐Dimensional Transition Metal Dichalcogenides Trigger Trained Immunity in Human Macrophages through Epigenetic and Metabolic Pathways. Small 2022, 18, 2107816.

Peng, G. and Fadeel, B. Understanding the bidirectional interactions between two-dimensional materials, microorganisms, and the immune system. Advanced Drug Delivery Reviews 2022 188:114422.

Peng, G., Duan, T., Guo, M., Xue, Y., Chen, C., Li, Y., Lifer, K. and Fadeel, B. Biodegradation of graphdiyne oxide in classically activated (M1) macrophages modulates cytokine production. Nanoscale 2021,13, 13072-13084.

Peng, G., He, Y., Wang, X., Cheng, Y., Zhang, H., Savolainen, K., Madler, L., Pokhrel, S. and Lin, S. Redox Activity and Nano-Bio Interactions Determine the Skin Injury Potential of Co₃O₄-Based Nanoparticles towards Zebrafish. ACS Nano 2020,14, 4, 4166-4177. 

Peng, G.,Martin, R., Dearth, S., Sun, X., Boyer, G., Campagna, S., Lin, S. and Wilhelm, S. Seasonally-Relevant Cool Temperatures Interact with N Chemistry to Increase Microcystins Produced in Lab Cultures of Microcystis aeruginosa NIES-843. Environ. Sci. Technol. 2018, 52, 4127-4136.