Zou, J., Huang, J., Zhang, H., & Yue, D.(2021).Evolution of humic substances in polymerization of polyphenol and amino acid based on non-destructive characterization.FRONTIERS OF ENVIRONMENTAL SCIENCE & ENGINEERING,15(1).
Fortunato, J., Pena, J., Zhang, H., Huang, J., Zhu, M., Bruce E. Logan,, M., & Gorski, C.(2020).Progress towards rationally selecting manganese oxide electrodes for harnessing salinity gradient energy.Environ. Sci. Technol.,Revised version submitted
Zou, J., Huang, J., Yue, D., & Zhang, H.(2020).Roles of oxygen and Mn (IV) oxide in abiotic formation of humic substances by oxidative polymerization of polyphenol and amino acid.Chem. Eng. J.,https://doi.org/10.1016/j.cej.2020.124734
Fortunato, J., Pena, J., Benkaddour, S., Zhang, H., Huang, J., Zhu, M., Logan, B., & Gorski, C.(2020).Surveying Manganese Oxides as Electrode Materials for Harnessing Salinity Gradient Energy.ENVIRONMENTAL SCIENCE & TECHNOLOGY,54(9),5746-5754.
Huang, J., & Zhang, H.(2020).Redox reactions of iron and manganese oxides in complex systems.Frontiers of Environmental Science and Engineering,Revised version submitted
Zou, J., Huang, J., Yue, D., & Zhang, H.(2020).Effect of Mn(IV) dioxide on the evolution of humic substances in polymerization of polyphenol and amino acid.Frontiers of Environmental Science and Engineering,In review
Zou, J., Huang, J., Yuea, D., & Zhang, H.(2020).Roles of oxygen and Mn (IV) oxide in abiotic formation of humic substances by oxidative polymerization of polyphenol and amino acid.Chem. Eng. J.,In review
Huang, J., Dai, Y., Singewald, K., Liu, C., Saxena, S., & Zhang, H.(2019).Effects of MnO2 of different structures on activation of peroxymonosulfate for bisphenol A degradation under acidic conditions.Chemical Engineering Journal,370, 906-915.
Huang, J., Dai, Y., Liu, C., & Zhang, H.(2019).Effects of Second Metal Oxides on Surface-Mediated Reduction of Contaminants by Fe(II) with Iron Oxide.ACS Earth Space Chem,3, 680-687.
Huang, J., Chen, Y., & Zhang, H.(2019).Fe(II) involved abiotic reductive transformation of environmental contaminants: A review.Environ. Sci. Technol.,In Prep.
Huang, J., Chen, Y., Rosso, K., Waite, T., & Zhang, H.(2019).Fe(II) involved abiotic reductive transformation of environmental contaminants: A review.Chem. Soc. Rev.,In Prep.
Dai, Y., Huang, J., Zhang, H., & Liu, C.(2019).Highly sensitive electrochemical analysis of tunnel structured MnO2 nanoparticle-based sensors on the oxidation of nitrite.Sensors and Actuators B: Chemical,281, 746-750.
Huang, J., Wang, Q., Wang, Z., & Zhang, H.(2019).Insight into Interactions and Reductive Reactivity in Ternary Mixtures of Fe(II), Goethite and Phthalic acid based on a Combined Experimental and Modeling Approach.J. Phy. Chem. C,In review
Huang, J., Wang, Q., Wang, Z., & Zhang, H.(2019).Insight into Interactions and Reductive Reactivity in Ternary Mixtures of Fe(II), Goethite and Phthalic acid based on a Combined Experimental and Modeling Approach.Langmuir,35(25),8220-8227.
Dai, Y., Huang, J., Zhang, H., & Liu, C.(2019).Metal Oxides Nanoparticles based Redox-like Reaction as an Ultrasensitive Direct Electrochemical Biosensing Strategy through Electrostatic Interactions.Chemistry - A European Journal,In Review
Huang, J., Chen, Y., & Zhang, H.(2019).Ternary mixtures of metal ions, ligands, and metal oxides: A review.Environ. Sci. Technol.,In Prep.
Huang, J., Zhong, S., Dai, Y., Liu, C., & Zhang, H.(2018).Effect of Phase Structure of MnO2 on the Oxidation Reactivity toward Contaminant Degradation.Environ. Sci. Technol.,52(19),11309–11318.
Huang, J., Zhong, S., Dai, Y., Liu, C., & Zhang, H.(2018).Effect of Phase Structure of MnO2 on the Oxidation Reactivity toward Bisphenol A Degradation.Environ. Sci. Technol.,52(19),11309-11318.
Zhang, H., Taujale, S., Huang, J., & Lee, G.(2015).Effects of NOM on oxidative reactivity of manganese dioxide in binary oxide mixtures with goethite or hematite.Langmuir,31, 2790-2799.
