2021-2023年发表文章(第一或通讯作者) 1. Hu Cheng et al., Hierarchical porous biochars with controlled pore structures derived from co-pyrolysis of potassium/calcium carbonate with cotton straw for efficient sorption of diethyl phthalate from aqueous solution. Bioresource Technology (中科院1区期刊, IF: 11.889), 2022, 346: 126604. 2. Hu Cheng et al., Potential release of dissolved organic matter from agricultural residue-derived hydrochar: Insight from excitation emission matrix and parallel factor analysis. Science of The Total Environment (中科院1区期刊, IF: 10.753), 2021, 781: 146712. 3. Hu Cheng* et al., One-pot pyrolysis of a typical invasive plant into nitrogen-doped biochars for efficient sorption of phthalate esters from aqueous solution. Chemosphere (中科院2区期刊, IF: 8.943), 2021, 280: 130712. 4. Hu Cheng* et al., Potassium hydroxide-modified algae-based biochar for the removal of sulfamethoxazole: Sorption performance and mechanisms. Journal of Environmental Management (中科院1区期刊, IF: 8.910), 2021, 293: 112912. 5. Hu Cheng* et al., Coassisted carbonization with HCOOK/(HCOO)2Ca for the fabrication of bamboo-derived oxygen-doped porous carbons exhibiting high-performance sorption of diethyl phthalate from aqueous solutions. Bioresource Technology (中科院1区期刊, IF: 11.889), 2022, 367: 128310. 6. Hu Cheng* et al., A review for recent advances on soil washing remediation technologies. Bulletin of Environmental Contamination and Toxicology (中科院4区期刊, IF: 2.807), 2022, 109: 651–658. 7. Hu Cheng* et al., Self-activation of potassium/iron citrate-assisted production of porous carbon/porous biochar composites from macroalgae for high-performance sorption of sulfamethoxazole. Bioresource Technology (中科院1区期刊, IF: 11.889), 2022, 369: 128361. 8. Hu Cheng* et al., Comparison of the performance of hydrochar, raw biomass, and pyrochar as precursors to prepare porous biochar for the efficient sorption of phthalate esters. Science of The Total Environment (中科院1区期刊, IF: 10.753), 2022, 846: 157511. 9. Hu Cheng* et al., Assisting the carbonization of biowaste with potassium formate to fabricate oxygen-doped porous biochar sorbents for removing organic pollutant from aqueous solution. Bioresource Technology (中科院1区期刊, IF: 11.889), 2022, 360: 127546. 10. Hu Cheng* et al., Insights into the potential release of dissolved organic matter from different agro-forest waste-derived hydrochars: A pilot study. Journal of Cleaner Production (中科院1区期刊, IF: 11.072), 2021, 293: 112912. 11. Hu Cheng* et al., Nitrogen-doped porous biochar derived from marine algae for efficient solid-phase microextraction of chlorobenzenes from aqueous solution. Journal of Hazardous Materials (中科院1区期刊, IF: 14.224), 2021, 407: 124785. 12. Hu Cheng* et al., Marine macroalgae-derived multielement-doped porous biochars for efficient removal of sulfamethoxazole from aqueous solution: Sorption performance and governing mechanisms. Journal of Analytical and Applied Pyrolysis (中科院2区期刊, IF: 6.437), 2023, 171: 105963. 13. Hu Cheng* et al., Release characteristics of hydrochar-derived dissolved organic matter: Effects of hydrothermal temperature and environmental conditions. Chemosphere (中科院2区期刊, IF: 8.943), 2023, 321: 138138. 14. 程虎 等. 水热炭在土壤环境中的应用研究进展和展望. 环境工程技术学报, 2021, 11: 1202-1209.
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