更新日期：2024.*.**

2012-2016：昆明理工大学本科生（矿物加工工程）

2016-2021：昆明理工大学博士研究生（硕博连读，矿物加工工程）

2022-2024：昆明理工大学地质资源与地质工程博士后

2024-至今：昆明理工大学讲师，特聘教授

1. 国家自然科学基金青年基金项目： 基于铜-铵离子协同活化渣相氧化铜硫化浮选机制52404285 （主持，在研）

2. 云南省兴滇人才青年人才专项项目：铜-铵络合组分对难富集氧化铜矿物强化硫化浮选机 制研究（主持，在研）

3 云南省优秀博后项目 （主持，结题）

1.2024绿色矿山科学技术奖一等奖

2.入选云南省兴滇青年人才称号

3.2023，2024两次入选斯坦福大学前2%科学家

4. 云南省博士后定向资助

[1]一种基于铜铅耦合活化的硫化锌矿强化浮选方法.发明专利.授权号:CN202211601156.6.

[2]一种泥质氧化铜矿全粒级深度硫化-粗细粒分级强化浮选方法.发明专利.授权号:CN202211336488.6.

[3]一种连生型铜铅锌硫化矿的选冶回收与分离方法.发明专利.授权号:CN202010549676.1.

[4]一种含连生体的硫化铅锌矿浮选分离的方法.发明专利.授权号:CN202010549692.0.

[5]一种铜氨络合物梯级活化氧化铜矿强化硫化浮选回收的方法.发明专利.授权号:CN202010385426.9.

[6]一种斜板浓密机溢流中超微细粒钛铁矿的回收方法.发明专利.授权号:CN201811074955.6.

[7]一种强磁选尾矿中超微细粒级钛铁矿的回收方法.发明专利.授权号:CN201811074956.0.

[8]一种铁质包裹型混合铜矿的选冶方法.发明专利.授权号:CN201711145244.9.

[1] Effect of copper ions on surface properties of ZnSO4-depressed sphalerite and its response to flotation [J]. Separation and Purification Technology 2019,228. (JCR 1区，第一作者)

[2] Activation mechanism of lead ions in the flotation of sphalerite depressed with zinc sulfate [J]. Minerals Engineering 2020,146. (JCR 2区，第一作者)

[3] Adsorption characteristics of Pb(II) species on the sulfidized malachite surface and its response to flotation [J]. Separation and Purification Technology 2021,264. (JCR 1区，第一作者)

[4] Modification of malachite surfaces with lead ions and its contribution to the sulfidization flotation [J]. Applied Surface Science 2021,550. (JCR 1区，第一作者)

[5] Adsorption behavior and mechanism of copper ions in the sulfidization flotation of malachite [J]. International Journal of Mining Science and Technology 2022,32:897-906. (JCR 1区，第一作者)

[6] Influence of ferrous ions on surface properties of malachite and its response to sulfidization xanthate flotation [J]. Minerals Engineering 2022,189. (JCR 2区，第一作者)

[7] Interaction mechanism of copper ions with the surface of sulfidized malachite and its response to flotation [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2022,647. (JCR 2区，第一作者)

[8] A novel method for improving sulfidization xanthate flotation of malachite: Copper–ammonium synergistic activation [J]. Applied Surface Science 2023,618. (JCR 1区，第一通讯)

[9] Surface characteristic and sulfidization-xanthate flotation behaviours of malachite as influenced by ferric ions [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2023,668. (JCR 2区，第一作者)

[10] Surface modification of malachite using DMTD and its effect on xanthate adsorption [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2023,679. (JCR 2区，第一通讯)

[11] Efficient flotation separation of chalcopyrite from molybdenite and adsorption mechanism by green depressant pyrogallic acid [J]. Journal of Molecular Liquids 2024,411. (JCR 2区，第一通讯)

[12] Enhance recovery mechanism of difficult to enrich copper oxide component in copper smelting slag: Sulfidization-xanthate flotation [J]. Chemical Engineering Journal 2024,502. (JCR 1区，第一通讯)

[13] Evolution of sulfur species on malachite surfaces in the presence of calcium and magnesium ions and implications for xanthate flotation [J]. Advanced Powder Technology 2024,35. (JCR 1区，第一通讯)

[14] Experimental and DFT study of modified malachite with 2,5-dimercapto-1,3,4-thiadiazole and its response to sulfidization-xanthate behavior [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2024,693. (JCR 2区，第一通讯)

[15] Mechanistic insights into stepwise activation of malachite for enhancing surface reactivity and flotation performance [J]. International Journal of Minerals, Metallurgy and Materials 2024,31:2159-2172. (JCR 2区，第一通讯)

[16] Role of oil droplet size on dynamic pore wetting of active carbon and particle-bubble interaction: New inspiration for enhancing the porous mineral floatability [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2024,698. (JCR 2区，第一通讯)

[17] Sources, Performance and Mechanisms of Metal Ions in the Flotation Process of Copper, Lead, and Zinc Ores: A Review [J]. Minerals 2024,14. (JCR 3区，第一通讯)

[18] Sulfidization performance of hemimorphite surface in sodium sulfide system and identification of sulfidization products [J]. Transactions of Nonferrous Metals Society of China 2024,34:629-642. (JCR 1区，第一通讯)

[19] Effect of lead ions treatment on the flotation behavior of lime-depressed pyrite in a butyl xanthate system [J]. Separation and Purification Technology 2025,353. (JCR 1区，第一通讯)

[20] Surface sulfidization mechanism of difficult to enrich copper oxide in copper smelting slag and its response to recycling performance [J]. Applied Surface Science 2025,684. (JCR 2区，第一通讯)