個人簡介:
1968年生,四川省射洪縣人����;
1991年昆明理工大學(xué)有色金屬冶金專業(yè)本科畢業(yè)在四川省會東鉛鋅礦參加工作�����;
2000年獲中南工業(yè)大學(xué)有色金屬冶金碩士學(xué)位;
2007年獲北京科技大學(xué)材料學(xué)博士學(xué)位����;
1997年獲中級職稱;
2001?2003年���,擔(dān)任四川省會東鉛鋅礦副總工程師;
2009年6月晉升為四川大學(xué)副教授�����;
2007年至今�,四川大學(xué)化學(xué)工程學(xué)院工作�,現(xiàn)任副教授����,碩士研究生導(dǎo)師,四川大學(xué)低碳循環(huán)經(jīng)濟(jì)技術(shù)研究中心研究成員�����。
教學(xué)及研究成果
[1] Z. Q. Liu*,Y. C. Wang,W. Chu,Z. H. Li,C.C.Ge. Characteristics of doped TiO2 photocatalysts for the degradation of methylene blue waste water under visible light. J.Alloy. Compd.,2010,501: 54–59.
[2] Z .Q. Liu*,X Yan,W Chu,D D Li. Effects of impurities containing phosphorus on the surface properties and catalytic activity of TiO2 nanotube arrays. Appl. Surf. Sci.,2010,257: 1295–1299.
[3] Z.Q.Liu*,G. Li,W. Chen. Preparation of ZnFe2O4 nanopowders via sol-gel autoignition method. Powder metall.,2011,54(1): 13–18
[4] J.Zheng,Z. Q. Liu*,X. Liu,X. Yan,D. D. Li,W. Chu. Facile hydrothermal synthesis and characteristics of B-doped TiO2 hybrid hollow microspheres with higher photocatalytic activity. J. Alloy. Compd.,2011,509: 3771–3776.
[5] G. Li,Z. Q. Liu*,J. Lu,L. Wang,Z. Zhang. Effect of calcination temperature on the morphology and surface properties ofTiO2 nanotube arrays. Appl.Surf. Sci,2009,255: 7323–7328
[6] G. Li,Z. Q. Liu*,J.Lu,L.Wang,Z.Zhang. Fabrication of TiO2 nanotube arrays via electrochemical anodization in NH4F/H3PO4 electrolyte solution system. Chin. J. Inorg Chem,2009,25(6): 1031–1037.
[7] G. Li,Z. Q. Liu*,Z. Zhang,X Yan. Preparation of titania nanotube arrays by the hydrothermal method. Chin J. Catal,2009,30(1): 37–42.
[8] G. Li,Z.Q.Liu*,X Yan. Z. Zhang. Preparation of titania nanotube arrays by hydrothermal reaction in combination with anodic aluminum oxide template attached to aluminum substrate. Chin. J. Catal,2008,29(8): 680–682.
[9] Z.Q. Liu,Y.P. Zhou,Z.H. Li,Y.C.Wang,C.C. Ge. Enhanced photocatalytic activity of (La,N) co-doped TiO2 by novel TiCl4 sol-gel auto-igniting synthesis. J.Univ.Sci.Technol.B,2007,14 (6): 552–557.
[10] Z.Q. Liu,Y.P. Zhou,Z.H. Li,Y.C. Wang,C.C. Ge. Preparation and characterization of (metal,Nitrogen)-codoped TiO2 by Novel TiCl4 Sol-gel auto-igniting synthesis. RARE metaLS,2007,26(3): 263–270.
[11] Z.Q.Liu,Z.H. Li,Y.P. Zhou,C.C. Ge. Preparation and characterization of Ag/TiO2-xNx nanoparticles. Materials Science Forum,2007,534-536: 105–108.
[12] Z.Q.Liu,C. C. Ge Photocatalysis of Nonmetal Modified TiO2 Induced by Visible Light. Progress in Chemistry,2006,18(2/3):168–175.
[13] Z.Q.Liu,Y.P.Zhou,C. C. Ge Investigation of light absorption and photocatalytic performance of doped titania by low temperature combustion syathesis. Rare metal materials and engineering,2006,35(supplement 2): 104–108.
[14] Z.Q.Liu,C C Ge,Y. P.Zhou. Phase transformation of doped titania nanoparticles preared by sol-gel combustion synthesis. J. Univ. Sci. Tech. B,2006,28(2):153–156.
[15] Z.H.Li,Z.Q. Liu,Q.Z.Yan,Y.C.Wang,C.C. Ge. Preparation and performance of titanate nanotube by hydrothermal treatment. RARE metaLS,2008,27(2): 187–191.
[16] Y.C. Wang,Z.Q. Liu,Z.H.Li,C. C. Ge. Preparation and properties of visible l ight responding N-doped TiO2 nanopowder by hydrothermal synthesis. J. Univ. Sci. Tech. B.,2008,30(5): 540–543.
[17] Z.H.Li,Z.Q. Liu,Q.Z.Yan,Y.C.Wang,C.C. Ge. The influence of synthesis temperature on the titania nanotube. Function materials,2007,38(3): 485–491.
[18] G. D. Lu,Q.Z.Yan,X.T. Su,Z.Q. Liu,C.C. Ge. Progress of porous hydrogels. Progress in Chemistry,2007,19(4): 485–493
[19] J. He,M. T. Tan,J.L. Lu,Z.Q. Liu,S.H. Yan,W.Y. Yao. Concentrating Ge in zinc Hydrometallurgical process with hot acid leaching halotrichite method. J. Cent. South Univ. Technol.,2003,10(4): 307–312.
[20] Z.Q. Liu,F.J. Pan. Treatment of oxidizing calcine of Ag concentrate by oxidizing leaching with hydrochloric acid and leaching with sodium sulfite. Chin. J. Rare metals,2004,28(6): 1029–1033.
[21] Z.Q. Liu,F.J. Pan. Study on germanium recovery from ZnS concentrate leached slag. Nonferrous metals (metallurgy section),2004,4: 20–25.
[22] Z.Q. Liu. Problems on clarif ica tion of solution in Zinc hydrometallurgy. Hydrometallurgy of China,2002,21(2): 66–69.
[20] Z.Q. Liu,M.T.Tang,Q.M. Fan.Concentration of germanium during Zinc smelting by hot sulphuric acid leaching iron vitriol precipitation. Mining and metallurgy Engineering,2000,20(1): 44–46.
[23] Z.Q. Liu,M.T.Tang,J.L. Lu,J. He,S.H. Yang. Study on behav ior of germanium during neutral leaching of Zinc hydrometallurgy Process. Hydrometallurgy of China,2000,19(2),43–47.
[24] Z.Q. Liu,M.T.Tang. A removal study of cobalt in Zinc sulfate solution with antimony salt method at low temperature. Hydrometallurgy of China,1999,4,22–27.
[25] F.J. Pan,Z.Q. Liu. Industrial practices of concentration of germanium in process flowsheet of wet Zinc smelting. Mining and metallurgy Engineering,2004,24(4): 47–49.
[24] X.F.Zou,Z.Q. Liu,K.Zhen. X.Z.Zhang. Utilization of post-cadm ium-leached-out residue forproducing copper sulphate. Mine reseach and development,1999,19 (supplement): 60–62.
[26] J. He,J.L. Lu,Z.Q. Liu,M.T.Tang,S.H. Yang,W.Y. Yao,H.G. Chen. study on enrichment of germanium in hot acid leaching and zinc smelting with iron vitriol method. Journal of Guandong nonferrous metals,2002,12 (special in rare and scattered metals ): 21–28.
[27] X.T. Su,Q.Z. Yan,Z.Q. Liu,W.F. Zhang,et al. Sol-gel auto-ignition synthesis: overview of some recent results. Int. J Self-Propag High-Temp Sy.,2005,14(4): 273–281.
[28] X.Yan,Z.Q. Liu*,D.D.Li,G. Li. Preparation and photocatalytic reductive performance of Cu-doped TiO2 nanotube arrays. Function materials,,2010,41(7): 1278–1281.
[29] Y. T. Zhang,Z.Zhang,X.Z.Yuan,X.G.You,Z.Q. Liu. Microwave drying process and mineral phase analysis of low-grade complex laterite ores. J.Univ.Sci.Technol.B,2010,32 (9): 1119–1123.
[30] D. D. Li,Z.Q. Liu*,X.Yan,J.Zheng,X.Liu. Photo-electro catalytic oxidation of ammonia nitrogen wastewater on TiO2 nanotube arrays. Chin. J. Inorg Chem,2011,in press.
授權(quán)專利專利
1����、劉中清�,唐謨堂,何靜�,等. 熱酸浸出-鐵礬法煉鋅工藝中鍺和銀的富集方法. 中國發(fā)明專利���,公開號CN1345981A����,公開日2002-04- 24�����;
2、葛昌純�,劉中清. 一種溶膠?凝膠低溫燃燒合成摻雜二氧化鈦光催化劑的方法�����。中國發(fā)明專利�,公開號CN1712129 A,公開日2005-12- 28����;
3����、劉中清,李丹丹,顏欣. 一種光電催化處理工業(yè)廢水的方法. 中華人民共和國國家知識產(chǎn)權(quán)局,CN201010157248.0,中國,2010/4/23(中國知識產(chǎn)權(quán)網(wǎng))���。劉中清 副教授 -- 研究工作主要研究方向:
1���、納米材料包括納米粉體�、納米結(jié)構(gòu)材料的制備、性能及其在催化合成與催化降解環(huán)境中有毒有害污染物中的應(yīng)用研究�;
2����、復(fù)雜有色金屬礦物及二次資源中稀散金屬���、貴金屬等的綠色綜合回收技術(shù)���;
3����、有色金屬功能材料���,合金及單一及復(fù)合氧化物和金屬超細(xì)粉體的制備與應(yīng)用;
4����、冶金生產(chǎn)過程優(yōu)化與智能控制���。
科研工作:
1�、二氧化碳高壓光電催化還原及其機(jī)理研究�,國家自然科學(xué)基金項目(2008~2010)�����,項目編號:50774053����,項目負(fù)責(zé)人�;
2���、光電催化處理高氨氮污水關(guān)鍵技術(shù)研究與工程示范����,四川省科技支撐項目(2009~2011)�����,計劃編號:2009GZ0224�,項目負(fù)責(zé)人���;
3、復(fù)雜紅土鎳礦流態(tài)化選擇性還原技術(shù)研究���,國家高技術(shù)研究發(fā)展計劃(863計劃)(2008~2010),項目編號:2008AA06Z110�����,排名第三�;
4�、超大規(guī)模集成電路銅互連擴(kuò)散阻擋層性能評價�����,四川省科技攻關(guān)項目(2008~2010),項目編號:07FG001-017���,排名第三;
5����、云南6300KV?A精煉爐工程設(shè)計���,企業(yè)橫向,排名第二�,已結(jié)題。
6���、深部煤炭開發(fā)中煤與瓦斯共采理論2011CB201200,課題二:深部采動多尺度破斷煤巖體瓦斯吸附�、解吸規(guī)律(2011CB201202)����,國家973計劃,項目參與人����。
教學(xué)工作
主講《鋼鐵冶金學(xué)》���、《火法冶金設(shè)備》���、《濕法冶金設(shè)備》等課程。主要從事濕法冶金專業(yè)實驗研究�����,本科畢業(yè)論文�����。已培養(yǎng)碩士研究生并畢業(yè)一名�����,在讀兩名。劉中清 副教授 -- 獲獎及其他曾獲1997年度四川省科技成果獎勵一項�,第八完成人���;2004年度四川省科技進(jìn)步三等獎�,第三完成人����;Materials Science and Engineering B,Surface and Interface Analysis ,Corrosion Science,Chem Phys Chem等刊物審稿人�����。
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免責(zé)聲明
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