Hu, J., Yin, R., Wang, J.*, Ren, H. Data driven multiple objective optimization of AAO process towards wastewater effluent biological toxicity reduction. npj Clean Water 2024, 7, 61. Link
Liang, Z., Zhou, L., Chen, K., Lin, Y., Lai, A., Lee, P., Sit, P., Yin, R., Chan, C*. Formation of secondary aerosol by 222 nm Far-UVC irradiation on SO2. Atmospheric Environment 2024, 120559. Link
Yin, R., Anderson, C., Zhao, J., Boehm, A., Mitch, A. W.* Controlling Contaminants Using a Far-UVC-based Advanced Oxidation Process for Potable Reuse. Nature Water 2023, 1, 555–562. Link
Wang, Y., Ma, B., Zhao, J., Tang, Z., Li, W., He, C.*, Xia, D., Linden, K., Yin, R.* Rapid Inactivation of Fungal Spores in Drinking Water by Far-UVC Photolysis of Free Chlorine. Environmental Science & Technology 2023, 57, 51, 21876–21887. (正封面文章) Link
Zhao, J., Shang, C., Yin, R.* Developing a hybrid model for predicting the reaction kinetics between chlorine and micropollutants in water. Water Research 2023, 120794. Link
Zhao, J., Payne, E., Liu, B., Shang, C.*, Blatchley, E., Mitch, W., Yin, R.* Making waves: Opportunities and challenges of applying far-UVC radiation in controlling micropollutants in water. Water Research 2023, 120169. Link
Wang, Y.; Ma, B.; He, C.,* Xia, D., Yin, R.* Nitrate protects microorganisms and promotes formation of toxic nitrogenous byproducts during water disinfection by Far-UVC radiation. Environmental Science & Technology 2023, 57, 24, 9064–9074. (正封面文章) Link
Zhao, J., Shang, C.*, Yin, R.* A high-radical-yield advanced oxidation process coupling Far-UVC radiation with chlorinated cyanurates for micropollutant degradation in water. Environmental Science & Technology 2023, 57, 47, 18867–18876. Link
Ma, D.1, Yin, R.1, Liang, Z., Liang, Q., Xu, G., Lian, Q., Wong, P., He, C., Xia, D.*, Lu, H.* Photo-sterilization of groundwater by tellurium and enhancement by micro/nano bubbles. Water Research 2023, 233, 119781. Link
Tang, Z., Qu, W., Lin, Z., Li, J., Wu, P., Lian, Q., He C., Yin, R.*, Wong, P., Xia, D.* Rapid and complete inactivation of pathogenic microorganisms by solar-assisted in-situ H2O2 generation using a polypyrrole-supported copper sulfide system. Applied Catalysis B: Environmental 2023, 123047. Link
Wang, Y.1, Yin, R.1,*, Tang, Z., Liu, W., He, C.*, Xia, D.* Reactive nitrogen species mediated inactivation of pathogenic microorganisms during UVA photolysis of nitrite at surface water levels. Environmental Science & Technology 2022, 56, 17, 12542–12552. Link
Li, J.1, Cassol, G.1, Zhao, J., Sato, Y., Jing, B., Zhang, Y., Shang, C., Yang, X., Ao, Z., Chen, G., Yin, R.* Superfast degradation of micropollutants in water by reactive species generated from the reaction between chlorine dioxide and sulfite. Water Research 2022, 118886. Link
Zhao, J., Peng, J., Yin, R.*, Fan, M., Yang, X., Shang, C.* Multi-angle comparison of UV/chlorine, UV/monochloramine, and UV/chlorine dioxide processes for water treatment and reuse. Water Research 2022, 118414. Link
Peng, J., Yin, R.*, Yang, X., Shang, C.* A novel UVA/ClO2 advanced oxidation process for the degradation of micropollutants in water. Environmental Science & Technology 2022, 56, 2, 1257–1266. Link
Zhao, J., Shang, C., Zhang, X., Yang, X.*, Yin, R.* The multiple roles of chlorite on the concentrations of radicals and ozone and formation of chlorate during UV photolysis of free chlorine. Water Research 2020, 116680. Link
Yin, R., Blatchley, E.*, Shang, C.* UV photolysis of mono- and dichloramine using UV-LEDs as radiation sources: Photodecay rates and radical concentrations. Environmental Science & Technology 2020, 54, 13, 8420–8429. Link
Yin, R., Shang, C.* Removal of micropollutants in drinking water using UV-LED/chlorine advanced oxidation process followed by activated carbon adsorption. Water Research 2020, 116297. Link
Yin, R., Ling, L.*, Shang, C.* Wavelength-dependent chlorine photolysis and subsequent radical production using UV-LEDs as light sources. Water Research 2018, 142, 452–458. Link
Yin, R., Peng, J., Sun, J.*, Li, C., Xia, D., Shang, C.* Simultaneous removal of hydrogen sulfide, phosphate and emerging organic contaminants, and improvement of sludge dewaterability by oxidant dosing in sulfide-iron-laden sludge. Water Research 2021, 117557. Link