刘庆友 男 博导 深圳职业技术大学

电子邮件：liuqingyou@szpu.edu.cn

通信地址： 广东省深圳市南山区西丽街道沙河西路4089号深圳职业技术大学

邮政编码：518055

研究领域

固废资源化，环境功能材料开发与应用，高温高压传感器

招生信息

博士

招生领域（一级学科）

环境科学与工程

研究方向

固废资源化，环境功能材料开发与应用，高温高压传感器

教育背景

2002-09--2007-07 中国科学院大学 地球化学博士

1993-09--1997-07 赣南师范大学 化学教育学士

工作经历

2023-08~现在,深圳职业技术大学,教授

2020-01~2023-08,中国科学院地球化学研究所,研究员

2011-01~2020-01,中国科学院地球化学研究所,副研究员

2014-02~2014-09,Australia CSIRO Mineral Resources Flagship,访问学者

2011-03~2012-03,Australia CSIRO Process Science and Engineering,访问学者

2007-09~2010-12,中国科学院地球化学研究所,助理研究员

专利与奖励

专利成果

(1)一种CoP的碳热还原制备方法、产品及应用,发明, 2022,第1作者,专利号: 202010914007X

(2)一种Ni₂P的碳热还原制备方法、产品及应用,发明, 2022,第1作者,专利号: 2020109144530

(3)一种硫修饰黄铜矿吸附材料、制备方法及其应用,发明, 2021,第1作者,专利号: 2019108914757

(4)一种快速测定金属硫化物矿物在土壤中风化活化能的方法,发明, 2021,第1作者,专利号: 2020106502882

(5)一种高纯致密毒砂电极的制备方法,发明, 2021,第2作者,专利号: 2019105631328

(6)高温高压水流体环境中的原位电化学-拉曼光谱测量系统,实用新型, 2021,第5作者,专利号: 2020224290539

(7)一种流通式高压水热三电极电化学测量系统,实用新型, 2021,第4作者,专利号: 2020218328736

(8)一种水热大腔体高温高压实验装置,实用新型, 2019,第3作者,专利号: 2019202713020

(9)一种大腔体高温高压气液两相流动实验装置,实用新型, 2019,第4作者,专利号: 2019202708357

出版信息

发表论文

[1] Shuai Wang^#, Peng Liao^#, Ling Cen, Hongguang Cheng, Qingyou Liu*. Biochar promotes arsenopyrite weathering in alkaline soil: Electrochemical mechanism and environmental implications. Environmental Science & Technology, 2023, 57: 8373-8384.

[2] Xiaonan Feng^#, Zhijie Chen^#, Shuai Wang, Ling Cen, Bing-Jie Ni, Qingyou Liu*. Insights into the weathering behavior of pyrite in alkaline soil through electrochemical characterizations: actual hazards or potentially benefits? Journal of Hazardous Materials, 2023, 451: 131145.

[3] Ling Cen, Hongguang Cheng, Qingyou Liu*, Shuai Wang, Xi Wang. Arsenic release from arsenopyrite weathering in acid mine drainage: Kinetics, transformation, and effect of biochar. Environment International, 2022, 170: 107558.

[4] Qingyou Liu, Kai Zheng, Shuai Wang, Luying Wang, Sen Lin, Heping Li*. Arsenopyrite oxidative dissolution in NaCl solution at high temperature and high pressure conditions: Kinetics, pathways, electrochemical mechanism and geological implications. Contributions to Mineralogy and Petrology, 2022, 177:66.

[5] Chuanyi Xu^#, Qingyou Liu^#, Meng Wei, Shihui Guo, Yueping Fang, Zhuobiao Ni*, Xixian Yang*, Shengsen Zhang*, Rongliang Qiu. Co@CoO encapsulated with N-doped carbon nanotubes activated peroxymonosulfate for efficient purification of organic wastewater. Separation and Purification Technology, 2022, 295: 121347.

[6] Shuai Wang, Kai Zheng, Heping Li, Xiaonan Feng, Luying Wang, Qingyou Liu*. Arsenopyrite weathering in acidic water: Humic acid affection and arsenic transformation. Water Research, 2021, 194: 116917.

[7] Xiaonan Feng, Qingyou Liu*, Shuai Wang, Ling Cen, Heping Li*. Arsenopyrite weathering in acid rain: arsenic transfer and environmental implications. Journal of Hazardous Materials, 2021, 420: 126612.

[8] Shuai Wang, Kai Zheng, Qingyou Liu*, Luying Wang, Xiaonan Feng, Heping Li*. Galena weathering in simulated alkaline soil: Lead transformation and environmental implications. Science of the Total Environment, 2021, 755(2): 142708.

[9] Kai Zheng, Heping Li*, Shuai Wang, Xiaonan Feng, Luying Wang, Qingyou Liu*. Arsenopyrite weathering in sodium chloride solution: Arsenic geochemical evolution and environmental effects. Journal of Hazardous Materials, 2020, 392: 122502.

[10] Kai Zheng, Heping Li*, Shuai Wang, Luying Wang, Qingyou Liu*. Block and malleable arsenopyrite hot-pressure sintering: applied implications. Journal of Materials Research and Technology, 2020, 9(4): 8997-9003.

[11] Zhiwei Yao, Meijun Dong, Yan Shi, Yue Sun, Qingyou Liu*. A novel and facile synthetic route to Mo (M=Ni, Co) bimetallic phosphides. Phosphorus Sulfur and Silicon and the Related Elements, 2020, 195(2): 165-172.

[12] Kai Zheng, Heping Li*, Liping Xu, Shengbin Li, Luying Wang, Xiaoying Wen, Qingyou Liu*. The influence of humic acids on the weathering of pyrite: Electrochemical mechanism and environmental implications. Environmental Pollution, 2019, 251: 738-745.

[13] Zhichao Li, Qingyou Liu*, Yan Shi*, Zhiwei Yao*, Wei Ding, Yue Sun. Novel synthesis of NiMoP phosphide catalyst in a CH₄-CO₂gas mixture. Dalton Transactions, 2019, 48: 14256-14260.

[14] Siqi Wang, Yanzhao Cui, Yan Shi, Zhiwei Yao, Qingyou Liu*, Yue Sun. Alumina-supported cobalt phosphide as a new catalyst for preferential CO oxidation at high temperatures. Phosphorus Sulfur and Silicon and the Related Elements, 2019, 194(9): 851-856.

[15] Hanchuan Zhao, Yan Shi, Zhiwei Yao, Liying Liang, Siqi Wang, Qingyou Liu*, Baojiang Jiang, Yue Sun. Phenol-formaldehyde resin route to the synthesis of several iron group transition metal phosphides. Phosphorus Sulfur and Silicon and the Related Elements, 2019, 194(8): 836-842.

[16] Qingyou Liu*, Shuai Wang, Miao Chen, Yi Yang. Effect of pyrite on chalcopyrite electrochemical behaviour at different potentials. Journal of Chemical Research, 2019, 43(11-12): 493-502.

[17] Qingyou Liu, Heping Li*, Guoheng Jin, Kai Zheng, Luying Wang. Assessing the influence of humic acids on the weathering of galena and its environmental implications. Ecotoxicology and Environmental Safety, 2018, 158: 230-238.

[18] Qingyou Liu, Miao Chen, Kai Zheng, Yi Yang, Xiaonan Feng, Heping Li*. In situ electrochemical investigation of pyrite assisted leaching of chalcopyrite. Journal of the Electrochemical Society, 2018, 165(13): H813-H819.

[19] Kai Zheng, Heping Li, Luying Wang, Xiaoying Wen, Qingyou Liu*. Galena weathering under simulated acid rain conditions: electrochemical processes and environmental assessments. Environmental Science: Processes and Impacts, 2018, 20(5): 822-832.

[20] Qingyou Liu*, Miao Chen, Yi Yang. The effect of chloride ions on the electrochemical dissolution of chalcopyrite in sulfuric acid solution. Electrochimica Acta, 2017, 253: 257-267.

[21] Kai Zheng, Heping Li, Luying Wang, Xiaoying Wen, Qingyou Liu*. Pyrite oxidation under simulated acid rain weathering conditions. Environmental Science and Pollution Research, 2017, 24(27): 21710-21720.

[22] Qingyou Liu, Guoheng Jin, Kai Zheng, Xiaoying Wen, Heping Li *. Influence of temperature and added potential on the electrochemical dissolution of galena in HNO₃at pH 2.0 and its applied implications. International Journal of Electrochemical Science, 2017, 12: 7004 -7016.

[23] Qingyou Liu, Kai Zheng, Xiaoying Wen, Heping Li*. Study of the Electrochemical passive-active transition of chalcopyrite in acidic solution. International Journal of Electrochemical Science, 2016, 11: 7089-7098.

[24] Guoheng Jin, Luying Wang, Kai Zheng, Heping Li, Qingyou Liu*. Influence of pH, Pb²⁺, and temperature on the electrochemical dissolution of galena: environmental implications. Ionics, 2016, 22(6): 975-984.

[25] Qingyou Liu, Luying Wang, Kai Zheng, Heping Li*. The influence of calcium fluoride on the electrochemical dissolution of chalcopyrite in sulfuric acid solution. Ionics, 2015, 21: 749-753.

[26] Qingyou Liu, Yanqing Zhang, Heping Li*. Pressure solution of electrically conductive minerals in shallow crust-galvanic processes: A case study from pyrite under differential stress. Applied Geochemistry, 2013, 29: 144-150.

[27] Qingyou Liu, Yanqing Zhang, Heping Li*. Influence of differential stress on the galvanic interaction of pyrite–chalcopyrite. Ionics, 2013, 19: 77-82.

[28] Qingyou Liu, Heping Li*. Electrochemical behavior of chalcopyrite (CuFeS₂) in FeCl₃solution at room temperature and differential stress. International Journal of Mineral Processing, 2011, 98(1-2): 82-88.

[29] Qingyou Liu, Heping Li*. A comparison of the electrochemical behaviors of pyrite and chalcopyrite in a NaCl solution at room temperature and under differential stress. Minerals Engineering, 2010, 23(9): 691-697.

[30] Qingyou Liu, Heping Li*, Li Zhou. Experimental study of pyrite-galena galvanic in a flowing system and its applied implications. Hydrometallurgy, 2009, 96(1-2): 132-139.

[31] Qingyou Liu, Heping Li*, Li Zhou. Galvanic interactions between metal sulfide minerals: Implications for mines environmental restoration. Applied Geochemistry, 2008, 23(8): 2316-2323.

[32] Qingyou Liu, Heping Li*, Li Zhou. Study of galvanic interactions between pyrite and chalcopyrite in a flowing system: implications for the environment. Environmental Geology, 2007，52(1): 11-18.

科研活动

科研项目

（1） 玄武岩和花岗岩风化过程的Li、Mg同位素分馏机理研究，课题主持,国家级, 2020-01--2024-12

（2） 基于同步辐射X射线谱学的水热大腔体高温高压装置，课题主持,国家级, 2019-01--2023-12（3） 高温高压下水流体-黄铁矿/金相互作用实验研究及其对金成矿作用的启示,主持,国家级, 2019-01--2022-12

（4） 织金磷块岩型稀土矿稀土富集分离关键技术研究，主持,省级, 2016-12--2019-12

（5） 系列高温高压原位测量技术的研发，主持,省级, 2012-01--2015-12

（6） 低品位硫化铜矿微生物应力原电池浸出技术研究，主持,省级, 2011-06--2013-06

（7） 常温差异应力下硫化物腐蚀原电池的电化学实验研究，主持,国家级, 2009-01--2011-12

（8） 流动体系应力作用下硫化物矿物原电池腐蚀实验研究，主持,省级, 2009-07--2011-07

（9） 流动体系下硫化物矿物原电池腐蚀实验研究—对贵州矿山环境治理的启示，主持,省级, 2008-10--2010-08

（10） 高温高压下水流体中电子导电性固体物质腐蚀电化学原位测量子系统的研制，主持,省级, 2007-10--2009-10

指导学生

已指导学生

郑 凯 博士研究生 070902-地球化学

王璐颖 博士研究生 070902-地球化学

冯晓楠 硕士研究生 070902-地球化学

金国恒 硕士研究生 085229-环境工程

现指导学生

王 帅 博士研究生 070902-地球化学

岑 凌 博士研究生 070902-地球化学

袁艳祥 博士研究生 085229-环境工程

王 涛 博士研究生 085229-环境工程

何恒久 硕士研究生 085229-环境工程