代表性论文专著
1.Recovery of cathode materials from spent lithium-ion batteries and their application in preparing multi-metal oxides for the removal of oxygenated VOCs: Effect of synthetic methods, Environmental Research,193,110563,2021
2.Promotional removal of oxygenated VOC over manganese-based multi oxides from spent lithium-ions manganate batteries: Modification with Fe, Bi and Ce dopants, Science of the Total Environment, 740, 139951, 2020
3.Enhanced catalytic activity of oxygenated VOC deep oxidation on highly active in-situ generated GdMn2O5/GdMnO3 catalysts, J. Colloid and Interface Science, 578,229- 241, 2020
4.Manganese-based multi-oxide derived from spent ternary lithium-ions batteries as high-efficient catalyst for VOCs oxidation,Journal of Hazardous Materials, 380,120905,2019
5.First-Principle Study on Heterofullerenes: Effective and Multifunct-ional in Hg Removal,Industrial & Engineering Chemistry Research,58,25,11101-11110, 2019
6.QSAR study on the removal efficiency of organic pollutants in supercritical water based on degradation temperature, Chemistry Central Journal,12,16, 2018
7.Quantitative structure-activity relationship (QSAR) for the adsorption of organic contaminants by nascent state manganese dioxide, Desalination and Water Treatment,88,235-256,2017
8.Hydrothermal conversion of glucose into organic acids with bentonite as a solid-base catalyst, Catalysis Today,274,49-54,2016
