1. Ni, S., Han, F., Wang, W., Han, D., Bao, Y., Han, D., Wang, H., Niu, L., 2018. Innovations upon antioxidant capacity evaluation for cosmetics: A photoelectrochemical sensor exploitation based on N-doped graphene/TiO 2 nanocomposite. Sensors and Actuators B: Chemical 259, 963-971.

2. Ni, S., Bai, F.-Y., Pan, X.-M., 2021. Synergistic effect of glutaric acid and ammonia/amine/amide on their hydrates in the nucleation: A theoretical study. Chemosphere 275, 130063.

3. Ni, S., Bai, F.-Y., Pan, X.-M., 2020. Atmospheric chemistry of thiourea: nucleation with urea and roles in NO2 hydrolysis. Physical Chemistry Chemical Physics 22, 8109-8117.

4. Ni, S., Bai, F.-Y., Pan, X.-M., 2020. Can nitrous acid contribute to atmospheric new particle formation from nitric acid and water? New Journal of Chemistry 44, 15625-15635.

5. Bai, F.-Y., Ni, S., Ren, Y., Tang, Y.-Z., Zhao, Z., Pan, X.-M., 2020. DFT analysis on the removal of dimethylbenzoquinones in atmosphere and water environments: •OH-initiated oxidation and captured by (TiO 2 ) n clusters (n=1－6). Journal of H H azardous M aterials 386, 121636.

6. Bai, F.-Y., Ni, S., Tang, Y.-Z., Pan, X.-M. and Zhao, Z., 2020. Ciprofloxacin transformation in aqueous environments: Mechanism, kinetics, and toxicity assessment during ×OH-mediated oxidation. Science of The Total Environment, 699, 134190.

7. Bai, F.-Y., Ni, S., Tang, Y.-Z., Pan, X.-M. and Zhao, Z., 2019. New insights into 3M3M1B: the role of water in ·OH-initiated degradation and aerosol formation in the presence of NO X (X =1, 2) and an alkali. Physical Chemistry Chemical Physics 21, 7378-17392.

8. Wang, L., Han, D., Ni, S., Ma, W., Wang, W., Niu, L., 2015. Photoelectrochemical device based on Mo-doped BiVO 4 enables smart analysis of the global antioxidant capacity in food. Chemical Science 6, 6632-6638.