The limitations of applying zero-valent iron technology in contaminants sequestration and the corresponding countermeasures: the development in zero-valent iron technology in … X Guan, Y Sun, H Qin, J Li, IMC Lo, D He, H Dong Water research 75, 224-248, 2015 | 906 | 2015 |
Faradaic reactions in capacitive deionization (CDI)-problems and possibilities: A review C Zhang, D He, J Ma, W Tang, TD Waite Water research 128, 314-330, 2018 | 630 | 2018 |
Various cell architectures of capacitive deionization: Recent advances and future trends W Tang, J Liang, D He, J Gong, L Tang, Z Liu, D Wang, G Zeng Water research 150, 225-251, 2019 | 352 | 2019 |
Faradaic reactions in water desalination by batch-mode capacitive deionization D He, CE Wong, W Tang, P Kovalsky, TD Waite Environmental Science & Technology Letters 3 (5), 222-226, 2016 | 309 | 2016 |
Comparison of Faradaic reactions in capacitive deionization (CDI) and membrane capacitive deionization (MCDI) water treatment processes W Tang, D He, C Zhang, P Kovalsky, TD Waite Water research 120, 229-237, 2017 | 297 | 2017 |
Silver nanoparticle− reactive oxygen species interactions: application of a charging− discharging model D He, AM Jones, S Garg, AN Pham, TD Waite The Journal of Physical Chemistry C 115 (13), 5461-5468, 2011 | 241 | 2011 |
Fluoride and nitrate removal from brackish groundwaters by batch-mode capacitive deionization W Tang, P Kovalsky, D He, TD Waite Water research 84, 342-349, 2015 | 233 | 2015 |
Silver Nanoparticle–Algae Interactions: Oxidative Dissolution, Reactive Oxygen Species Generation and Synergistic Toxic Effects D He, J Dorantes-Aranda, D Waite Environmental Science & Technology, 2012 | 220 | 2012 |
Versatile applications of capacitive deionization (CDI)-based technologies W Xing, J Liang, W Tang, D He, M Yan, X Wang, Y Luo, N Tang, M Huang Desalination 482, 114390, 2020 | 208 | 2020 |
Active chlorine mediated ammonia oxidation revisited: Reaction mechanism, kinetic modelling and implications C Zhang, D He, J Ma, TD Waite Water research 145, 220-230, 2018 | 181 | 2018 |
H2O2-Mediated Oxidation of Zero-Valent Silver and Resultant Interactions among Silver Nanoparticles, Silver Ions, and Reactive Oxygen Species D He, S Garg, TD Waite Langmuir 28 (27), 10266-10275, 2012 | 174 | 2012 |
Superoxide-Mediated Formation and Charging of Silver Nanoparticles AM Jones, S Garg, D He, AN Pham, TD Waite Environmental science & technology, 2011 | 171 | 2011 |
Analysis of capacitive and electrodialytic contributions to water desalination by flow-electrode CDI J Ma, C He, D He, C Zhang, TD Waite Water research 144, 296-303, 2018 | 155 | 2018 |
Ascorbic acid promoted magnetite Fenton degradation of alachlor: Mechanistic insights and kinetic modeling H Sun, G Xie, D He, L Zhang Applied Catalysis B: Environmental 267, 118383, 2020 | 141 | 2020 |
Kinetic modeling of the electro-Fenton process: quantification of reactive oxygen species generation S Qiu, D He, J Ma, T Liu, TD Waite Electrochimica Acta 176, 51-58, 2015 | 138 | 2015 |
Effect of structural transformation of nanoparticulate zero-valent iron on generation of reactive oxygen species D He, J Ma, RN Collins, TD Waite Environmental Science & Technology 50 (7), 3820-3828, 2016 | 137 | 2016 |
Development of redox-active flow electrodes for high-performance capacitive deionization J Ma, D He, W Tang, P Kovalsky, C He, C Zhang, TD Waite Environmental Science & Technology 50 (24), 13495-13501, 2016 | 135 | 2016 |
Capacitive membrane stripping for ammonia recovery (CapAmm) from dilute wastewaters C Zhang, J Ma, D He, TD Waite Environmental Science & Technology Letters 5 (1), 43-49, 2018 | 132 | 2018 |
Optimization of sulfate removal from brackish water by membrane capacitive deionization (MCDI) W Tang, D He, C Zhang, TD Waite Water research 121, 302-310, 2017 | 130 | 2017 |
Effects of aggregate structure on the dissolution kinetics of citrate-stabilized silver nanoparticles D He, MW Bligh, TD Waite Environmental science & technology 47 (16), 9148-9156, 2013 | 125 | 2013 |