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Electrochemical water treatment and electrode materials
Technical Details & Progress
Selected Papers:
Liu, D.; Yuan, Y.; Wei, Y.; Zhang, H.; Si, Y.; Zhang, F.*, Removal of refractory organics and heavy metals in landfill leachate concentrate by peroxi-coagulation process. Journal of Environmental Sciences 2022, 116, 43-51.
Si, Y.#; Zhang, F.#*; Chen, H.; Li, G.; Zhang, H.; Liu, D., Effect of current density on groundwater arsenite removal performance using air cathode electrocoagulation. Frontiers of Environmental Science & Engineering 2021, 15, 112.
Zhang, H.; Zhao, Y.; Li, Y.; Li, G.; Li, J.; Zhang, F.*, Janus electrode of asymmetric wettability for H2O2 production with highly-efficient O2 utilization. ACS Applied Energy Materials 2020, 3(1), 705-714.
Zhang, H.; Li, Y.; Zhao, Y.; Li, G.; Zhang, F.*, Carbon black oxidized by air calcination for enhanced H2O2 generation and effective organics degradation. ACS Applied Materials & Interfaces 2019, 11(31), 27846-27853.
Zhang, H.; Li, Y.; Li, G.; Zhang, F.*, Scaling up floating air cathodes for efficient H2O2 generation and electrochemical advanced oxidation processes. Electrochimica Acta 2019, 299, 273-280.
Zhang, H.; Li, Y.; Zhang, H.; Li, G.; Zhang, F.*, A three-dimensional floating air cathode with dual oxygen supplies for energy-efficient production of hydrogen peroxide. Scientific Reports 2019, 9, Article number: 1817.
Si, Y.; Li, G.; Wu, Y.; Zhang, H.; Yuan, Y.; Zhang, H.; Liu, B.; Zhang, F.*, Tradeoff between groundwater arsenite removal efficiency and current production in the self-powered air cathode electrocoagulation with different oxygen reduction pathways. Journal of Hazardous Materials 2018, 357, 138-145.
Zhang, H.; Wan, X.; Li, G.; Zhang, F.*, A three-electrode electro-Fenton system supplied by self-generated oxygen with automatic pH-regulation for groundwater remediation. Electrochimica Acta 2017, 250, 42-48.
Si, Y.; Li, G.*; Zhang, F.*, Energy-efficient oxidation and removal of arsenite from groundwater using air-cathode iron electrocoagulation. Environmental Science & Technology Letters 2017, 4(2), 71-75.
Liu, D.; Yuan, Y.; Wei, Y.; Zhang, H.; Si, Y.; Zhang, F.*, Removal of refractory organics and heavy metals in landfill leachate concentrate by peroxi-coagulation process. Journal of Environmental Sciences 2022, 116, 43-51.
Si, Y.#; Zhang, F.#*; Chen, H.; Li, G.; Zhang, H.; Liu, D., Effect of current density on groundwater arsenite removal performance using air cathode electrocoagulation. Frontiers of Environmental Science & Engineering 2021, 15, 112.
Zhang, H.; Zhao, Y.; Li, Y.; Li, G.; Li, J.; Zhang, F.*, Janus electrode of asymmetric wettability for H2O2 production with highly-efficient O2 utilization. ACS Applied Energy Materials 2020, 3(1), 705-714.
Zhang, H.; Li, Y.; Zhao, Y.; Li, G.; Zhang, F.*, Carbon black oxidized by air calcination for enhanced H2O2 generation and effective organics degradation. ACS Applied Materials & Interfaces 2019, 11(31), 27846-27853.
Zhang, H.; Li, Y.; Li, G.; Zhang, F.*, Scaling up floating air cathodes for efficient H2O2 generation and electrochemical advanced oxidation processes. Electrochimica Acta 2019, 299, 273-280.
Zhang, H.; Li, Y.; Zhang, H.; Li, G.; Zhang, F.*, A three-dimensional floating air cathode with dual oxygen supplies for energy-efficient production of hydrogen peroxide. Scientific Reports 2019, 9, Article number: 1817.
Si, Y.; Li, G.; Wu, Y.; Zhang, H.; Yuan, Y.; Zhang, H.; Liu, B.; Zhang, F.*, Tradeoff between groundwater arsenite removal efficiency and current production in the self-powered air cathode electrocoagulation with different oxygen reduction pathways. Journal of Hazardous Materials 2018, 357, 138-145.
Zhang, H.; Wan, X.; Li, G.; Zhang, F.*, A three-electrode electro-Fenton system supplied by self-generated oxygen with automatic pH-regulation for groundwater remediation. Electrochimica Acta 2017, 250, 42-48.
Si, Y.; Li, G.*; Zhang, F.*, Energy-efficient oxidation and removal of arsenite from groundwater using air-cathode iron electrocoagulation. Environmental Science & Technology Letters 2017, 4(2), 71-75.