个人信息

个人信息Personal Information

所在单位：大气与遥感学院

职称：教授

基本信息
个人简介
近期主要论著
近期科研项目

姓名: 梅剑

出生年月: 1990年4月

国籍: 中国

性别: 男

导师: 晏乃强教授

职称: 教授

最高学历: 博士

所属系部: 大气科学系

毕业院校: 上海交通大学

研究方向: 大气污染控制化学、环境功能材料

办公地点: 尚善楼501

邮箱: jsjhmj@126.com

2025年

Jian Mei*; Zhen Ding; Qianqian Hong; He Cui; Shijian Yang*, Remarkable enhancement of Cu loading on sulfurized Fe₂TiO₅for Cr (VI) removal: Mechanism and efficient induction of Cu₂S.Separation and Purification Technology,2025, 368, 132927.

Jian Mei*; Zhen Ding; Qianqian Hong; Yining Luo; Shijian Yang*,Novelpromotionof WO₃loading onsulfuratedFe₂TiO_xfor Cr (VI) removal:Mechanismsand applications in the recovery of Cr (VI)fromelectroplating effluents,Chemical Engineering Journal, 2025,508,160828.

Qi Shen;JialiangZhou; Xu Wu;BingLiu;Jian Mei*;ShijianYang, Exceptional performance of chlorobenzene oxidation on antimony-loaded commercial selective catalytic reduction catalyst as a co-benefit of nitrogen oxides reduction: Notable enhancement of chlorobenzene oxidation due to antimony loading.Journal of Colloid and Interface Science,2025, 680, 274-285.

2024年

YuleiMa;JianWang;PengjianLv;JiajiongZhou;JialiangZhou;Jian Mei*;ShijianYang*, Alternating adsorption of gaseous Hg⁰in smelting flue gas and aqueous Hg²⁺in waste acid usingFeS_x/Fe₂TiO₅: Full utilization of active S resource and centralized control of Hg pollution.Chemical Engineering Journal,2024, 494, 152959.

PengjianLv;ShuaiChang;QianqianHong;Jian Mei*;ShijianYang*, Outstanding performance of reproducible sulfureted Fe-Ti spinel for the centralized control of Hg (both gaseous Hg⁰ and aqueous Hg²⁺) emitted from coal-fired power plants with seawater flue gas desulfurization.Chemical Engineering Journal,2024, 483, 148955.

QianxianZheng;YutingZhang;XuanlinYang;QuanTian;ChuanbingHou;Jian Mei*;ShijianYang, Cr (VI) removal from industrial wastewater by regenerable sulfureted maghemite (γ-Fe₂O₃): Magical activity self-promotion after regeneration and effective recovery of Cr resource.Separation and Purification Technology,2024, 330, 125386.

LeyuanDong;KeyuJiang;QiShen;LijuanXie;Jian Mei*;ShijianYang,Catalytic oxidation of chlorobenzene overHSiW/CeO₂as aco-benefit of NO_xreduction: Remarkable inhibition ofchlorobenzene oxidation by NH₃.Materials, 2024, 17, 828.

KeyuJiang;LeyuanDong;QiShen;WeiWu;XueWu;Jian Mei*; Shijian Yang, Chlorobenzeneoxidation overphosphotungstic-acid-coatedceriumoxide: Synergisticeffect ofphosphotungsticandceriumoxide andinhibitionmechanism ofsulfurdioxide.Sustainability,2024, 16,2245.

2023年

ZhenDing;ChenYang;HuanZhang;Jian Mei*;JianWang;ShijianYang,Newutilizations ofnatural CuFeS₂as the raw material of Cu smeltingfor recovering Hg⁰fromCu smelting flue gas.Fuel,2023,341,126997.

ChenMa;MengleLiu;ZichenYang;QianxianZheng;Jian Mei*; Shijian Yang,Highlyefficient Cr (VI) removal from electroplating wastewater by regenerable copper sulfides: Mechanism and magical induction effect for Cr resource recovery.Environmental Research, 2023, 236, 116799.

PengjianLv;QianqianHong;ShuaiChang;Jian Mei*;ShijianYang*, Sequential capture of gaseous Hg⁰ in flue gas and aqueous Hg²⁺ in desulfurization solution by Cu-ZnS: Mechanisms, kinetics, and its application in Hg recovery as a supplement of selective catalytic reduction + wet flue gas desulfurization.ACS ES&T Engineering,2023, 3, 1637-1648.

JinboHou;ChangWang;YuleiMa;JianWang;Jian Mei*; Shijian Yang,Novel effects of copper precursors on the adsorption and desorption of elemental mercury over copper-based sulfides: Performance, mechanism, and kinetics.Journal of the Taiwan Institute of Chemical Engineers,2023, 142, 104636.

2022年

QianqianHong;XufanZhang;RunliangZhu;ChangWang;Jian Mei*; Shijian Yang,Resource utilization of natural pyrite (FeS₂) as the tailings after flotation of natural sphalerite (ZnS) for reclaiming high concentrations of gaseous Hg⁰from Zn smelting flue gas.Chemical Engineering Journal,2022, 427, 131644.

JianWang^#;ZhenyaYang^#;Jian Mei*;ChangWang;QianqianHong;ShijianYang*, Comparison of pyrite-phase transition metal sulfides for capturing leaked high concentrations of gaseous elemental mercury in indoor air: Mechanism and adsorption/desorption kinetics.Journal of Colloid and Interface Science,2022, 622, 431-442.

XufanZhang^#;ZhenyaYang^#;Jian Mei*;QixingHu;ShuaiChang;QianqianHong;ShijianYang*, Outstanding performance ofsulfuratedtitanomaghemite(Fe₂TiO₅) for hexavalent chromium removal:Sulfurationpromotion mechanism and its application in chromium resource recovery.Chemosphere,2022, 287, 132360.

2021年

JianWang;Jian Mei*;ChangWang;QixingHu;XufanZhang;ShijianYang*, Outstanding performance of ZnS/TiO₂for the urgent disposal of liquid mercury leakage indoors: Novel support effect, reaction mechanism and kinetics.Journal of Hazardous Materials,2021, 403, 123867.

QixingHu^#;ChangWang^#;YangGeng;XufanZhang;Jian Mei*;ShijianYang, Remarkable differences between copper-based sulfides and iron-based sulfides for the adsorption of high concentrations of gaseous elemental mercury: Mechanisms, kinetics, and significance.Journal of Colloid and InterfaceScience,2021, 582, 581-590.

PengxiangSun;Jian Mei*;ChangWang;ZhenDing;QianqianHong;ShijianYang, Outstanding performance ofCuO/Fe-Ti spinel for Hg⁰oxidation as a co-benefit of NO abatement: significant promotion ofHg⁰oxidation byCuOloading.Catalysis Science & Technology,2021, 11, 2316-2326.

2020年以前

JianMei^#;YongLiao^#;RuiyangQin;PengxiangSun;ChangWang;YongpengMa;ZanQu*;NaiqiangYan;ShijianYang*, Acceleration of Hg⁰adsorption onto natural sphalerite by Cu²⁺activation during flotation: Mechanism and applications in Hg⁰recovery.Environmental Science & Technology,2020, 54, 7687-7696.

Jian Mei;PengxiangSun;ChangWang;QiZhang;QixingHu;ShijianYang*, Significant enhancement of gaseous elemental mercury recovery from coal-fired flue gas by phosphomolybdic acid grafting onsulfuratedγ-Fe₂O₃: Performance and mechanism.Environmental Science & Technology,2020, 54, 1992-2001.

Jian Mei;ChangWang;LingnanKong;PengxiangSun;QixingHu;HuiZhao;YongfuGuo*;ShijianYang*, Remarkable improvement of Ti incorporation on Hg⁰capture from smelting flue gas bysulfuratedγ-Fe₂O₃: Performance and mechanism.Journal of Hazardous Materials,2020, 381, 120967.

QiZhang;Jian Mei*;PengxiangSun;HuiZhao;YongfuGuo;ShijianYang, Mechanism of elemental mercury oxidation over copper-based oxide catalysts: Kinetics and transient reaction studies.Industrial & Engineering Chemistry Research,2020, 59, 61-70.

Jian Mei;ChangWang;LingnanKong;XiaoleiLiu;QixingHu;HuiZhao;ShijianYang*, Outstanding performance of recyclable amorphous MoS₃supported on TiO₂for capturing high concentrations of gaseous elemental mercury: Mechanism, kinetics, and application.Environmental Science & Technology,2019, 53, 4480-4489.

Jian Mei;PengxiangSun;XinXiao;QiZhang;HuiZhao;YongfuGuo*;ShijianYang*, Influence mechanism of the compositions in coal-fired flue gas on Hg⁰oxidation over commercial SCR catalyst.Journal of Industrial and Engineering Chemistry,2019, 75, 130-137.

Jian Mei;JiangkunXie;YaningSun;ZanQu;NaiqiangYan*, Design of Co₃O₄/CeO₂-Co₃O₄hierarchical binary oxides for the catalytic oxidation ofdibromomethane.Journal of Industrial and Engineering Chemistry,2019, 73, 134-141.

Jian Mei;ZanQu;SongjianZhao;XiaofangHu;HaomiaoXu;NaiqiangYan*, Promoting effect of Mn and Ti on the structure and performance of Co₃O₄catalysts for oxidation ofdibromomethane. Journal of Industrial and Engineering Chemistry,2018, 57, 208-215.

Jian Mei;JiangkunXie;ZanQu;YuKe;XiaofangHu;NaiqiangYan*, Orderedmesoporous spinel Co₃O₄as a promising catalyst for the catalytic oxidation ofdibromomethane.Molecular Catalysis,2018, 461, 60-66.

Jian Mei;YuKe;ZhongjueYu;XiaofangHu;ZanQu;NaiqiangYan*, Morphology-dependent properties of Co₃O₄/CeO₂catalysts for low temperaturedibromomethane(CH₂Br₂) oxidation.Chemical Engineering Journal,2017, 320, 124-134.

Jian Mei; Wenjun Huang;ZanQu;XiaofangHu;NaiqiangYan*, Catalytic oxidation ofdibromomethaneover Ti-modified Co₃O₄catalysts: Structure, activity and mechanism.Journal of Colloid and Interface Science,2017, 505, 870-883.

Jian Mei;SongjianZhao;WenjunHuang;ZanQu;NaiqiangYan*, Mn-promoted Co₃O₄/TiO₂as an efficient catalyst for catalytic oxidation ofdibromomethane(CH₂Br₂).Journal of Hazardous Materials,2016, 318, 1-8.

Jian Mei;SongjianZhao;HaomiaoXu;ZanQu;NaiqiangYan*, The performance and mechanism for the catalytic oxidation ofdibromomethane(CH₂Br₂) over Co₃O₄/TiO₂catalysts.RSC Advances,2016, 6, 31181-31190.