1. Wang, ZH; Gui, HR; Luo, ZX*; Sarakiotia, LL.; Yan, CZ; Du LG. Arsenic release: Insights into appropriate disposal of arsenic-loaded algae precipitated from arsenic contaminated water, Journal of Hazardous Materials, 2020, 384: 121249.
2. Shi, QY; Wang, CL; Zhang, H; Chen, CY; Zhang, X*; Chang, XL*. Trophic transfer and biomagnification of fullerenol nanoparticles in an aquatic food chain, Environmental Science: Nano, 2020, 7(4):1240-1251.
3. Zhen, Z ; Yan, CZ*; Zhao, Y. Influence of epiphytic bacteria on arsenic metabolism in Hydrilla verticillata, Environmental Pollution, 2020, 261:114232.
4. Wang, LY; Luo, ZX*; Zhen, Z ; Yan, Y ; Yan, CZ; Ma, XF; Sun, L ; Wang, M ; Zhou, XY; Hu, AY. Bacterial community colonization on tire microplastics in typical urban water environments and associated impacting factors, Environmental Pollution, 2020, 265:114922.
5. Zhao, Y; Yan, CZ*; Zhen, Z. Influence of environmental factors on arsenite transformation and fate in the Hydrilla verticillata (L.f.) royle - Medium system, Chemosphere, 2020, 259:127442.
6. Guo, ZF; Yan, CZ*; Wang, ZS; Xu, FF; Yang, F. Quantitative identification of nitrate sources in a coastal peri-urban watershed using hydrogeochemical indicators and dual isotopes together with the statistical approaches, Chemosphere, 2020, 243:125364.
7. Shi, QY; Zhang, H; Wang, CL; Ren, HY; Yan, CZ; Zhang, X*; Chang, XL*. Bioaccumulation, biodistribution，and depuration of 13C-labelled fullerenols in zebrafish through dietary exposure, Ecotoxicology and Environmental Safety, 2020, 191:110173.
8. Zhao, Y; Zhen, Z; Wang, ZH; Zeng, LQ; Yan, CZ*. Influence of environmental factors on arsenic accumulation and biotransformation using the aquatic plant species Hydrilla verticillata, Journal of Environmental Sciences, 2020, 90:244-252.
9. Zeng, LQ; Yan, CZ*; Guo, JH; Zhen, Z ; Zhao, Y; Wang, DP. Influence of algal blooms decay on arsenic dynamics at the sediment water interface of a shallow lake, Chemosphere, 2019, 219: 1014-1023.
10. Dong, XX; Yang, F; Yang, SP; Yan, CZ*. Subcellular distribution and tolerance of cadmium in Canna indica L., Ecotoxicology and Environmental Safety, 2019, 185: UNSP 109692.
11. Wang, ZH; Luo, ZX*; Yan, CZ*; Rosenfeldt, RR.; Seitz, F; Gui, HR. Biokinetics of arsenate accumulation and release in Microcystis aeruginosa regulated by common environmental factors: Practical implications for enhanced bioremediation, Journal of Cleaner Production, 2018, 199:112-120.
12. Yang, F; Yan, CZ*. Influence of titanium dioxide nanoparticles on the toxicity of arsenate in Nannochloropsis maritima, Chemosphere, 2018, 209:191-200.
13. Luo, ZX*; Wang, ZH; Yan, YM; Li, JL; Yan, CZ; Xing, BS*. Titanium dioxide nanoparticles enhance inorganic arsenic bioavailability and methylation in two freshwater algae species, Environmental Pollution, 2018, 238:631-637.
14. Yang, F; Zeng, LQ; Luo, ZX; Wang, ZS; Huang, FY; Wang, QQ; Drobne, D; Yan, CZ*. Complex role of titanium dioxide nanoparticles in the trophic transfer of arsenic from Nannochloropsis maritima to Artemia salina nauplii. Aquatic Toxicology, 2018, 198:231-239.
15. Wang, ZH; Luo, ZX; Yan, CZ*; Xing, BS. Impacts of environmental factors on arsenate biotransformation and release in Microcystis aeruginosa using the Taguchi experimental design approach, Water Research, 2017, 118:167-176.
16. Yan, CZ*; Yang, F ; Wang, ZS; Wang, QQ; Seitz, F; Luo, ZX. Changes in arsenate bioaccumulation, subcellular distribution, depuration, and toxicity in Artemia salina nauplii in the presence of titanium dioxide nanoparticles., Environmental Science: Nano, 2017, 4(6):1365-1376.

1. The Strategic Priority Research Program of the Chinese Academy of Sciences (No. XDA23030203)

2. The Science and Technology Project of Fujian Province of China (No. 2018Y0080)

3. The National Nature Science Foundation of China (No. 21906157)