重庆大学绿色化学化工研究中心
Center of Green Chemistry and Chemical Engineering
[1] Zhong, H.; Zhang, Q.; Liu, Z.; Du, J.; Tao, C. Ti/Ti4O7 Anodes for Efficient Electrodeposition of Manganese Metal and Anode Slime Generation Reduction. ACS Omega 2023, 8 (41), 38469–38480.
[2] Xue, J.; Li, Y.; Jiang, M.; Wu, J.; Zhou, H.; Zhang, N.; Yang, S.; Tao, C.; Zhang, W.; Fan, X. Active Micelle Pumping Channel Triggers Nonequilibrium Surface Excess Aggregation. Langmuir 2023, 39 (34), 12260–12269.
[3] 蒲宇文, 刘羲, 唐康, 徐宗源, 郑国灿, 陈燕, 刘作华, 杜军, 彭毅, 陶长元. 钒酸盐形态分析研究. 钢铁钒钛 2023, 44 (6), 17-23.
[4] 钱慧琳, 冉金玲, 何安帮, 张爱红, 刘作华, 杜军, 陶长元. 二氧化碳-甲烷干气重整反应及其积炭控制的热力学分析. 低碳化学与化工 2023, 48 (5), 55–61.
[5] 刘羲, 蒲宇文, 徐宗源, 唐康, 郑国灿, 陈燕, 刘作华, 杜军, 彭毅, 陶长元. 钙化提钒过程中元素迁移转化行为的研究. 钢铁钒钛 2023, 44 (4), 1–9.
[6] Wang, S.; Xiong, X.; Liu, P.; Zhang, Q.; Zhang, Q.; Tao, C.; Wang, Y.; Liu, Z. CFD Simulation of Hydrodynamics and Mixing Performance in Dual Shaft Eccentric Mixers. Chinese Journal of Chemical Engineering 2023, 62, 297–309.
[7] Xiong, X.; Wang, S.; Liu, P.; Tao, C.; Wang, Y.; Liu, Z. Numerical Investigation on Intensified Mixing Performance with Modified Dual Impeller. Chemical Engineering Science 2023, 274, 118698.
[8] Gou, X.; Zheng, G.; Tang, J.; Tao, C.; Liu, R.; Liu, Z. Electric Field Efficiently Enhanced Thermochemical Cleaning for Oil Recovery from Oily Sludge. Chemical Engineering and Processing - Process Intensification 2023, 185, 109314.
[9] Tang, X.; Qiu, F.; Li, H.; Zhang, Q.; Quan, X.; Tao, C.; Wang, Y.; Liu, Z. Investigation of the Intensified Chaotic Mixing and Flow Structures Evolution Mechanism in Stirred Reactor with Torsional Rigid-Flexible Impeller. Ind. Eng. Chem. Res. 2023, 62 (4), 1984–1996.
[10] Yao, Y.; Liu, Z.; Zheng, G.; Tao, C.; Wang, Y.; Xi, B. Intensification of Solid–Liquid Suspension Performance in an Elliptical Uncovered Unbaffled Stirred Tank. Ind. Eng. Chem. Res. 2023, 62 (12), 5315–5325.
[11] Xie, Z.; Chang, J.; Tao, C.; Li, L.; Luan, J.; Liu, Z. Polyacrylonitrile-Based Carbon Fiber as Anode for Manganese Electrowinning: Anode Slime Emission Reduction and Metal Dendrite Control. J. Electrochem. Soc. 2021, 168 (1), 013501.
[12] Yao, H.; Tang, J.; Liu, Z.; Tao, C.; Wang, Y. Chaotic Mixing Intensification and Flow Field Evolution Mechanism in a Stirred Reactor Using a Dual-Shaft Eccentric Impeller. Ind. Eng. Chem. Res. 2022, 61 (26), 9498–9513.
[13] Meng, T.; Wang, Y.; Wang, S.; Qin, S.; Zhang, Q.; Wang, Y.; Tao, C.; Xu, Y.; Liu, Z. Exploration of Multishafts Stirred Reactors: An Investigation on Experiments and Large Eddy Simulations for Turbulent Chaos and Mixing Characteristics. Ind. Eng. Chem. Res. 2024, 63 (5), 2441–2456.
[14] Zhou, Y.; Zheng, G.; Cen, S.; Liu, R.; Tao, C. Leaching of Phosphate Ores with Lower Dissolution of Metallic Impurities: The Dual Role of Sodium Oleate. RSC Adv. 2023, 13 (16), 10600–10609.
[15] Zhou, Y.; Zheng, G.; Liu, Z.; Liu, R.; Tao, C. Multi-Stage Precipitation for the Eco-Friendly Treatment of Phosphogypsum Leachates Using Hybrid Alkaline Reagents. Journal of Water Process Engineering 2023, 53, 103626.
[16] Huo, X.; Guo, L.; Liu, R.; Tao, C.; Xi, B. Revealing Mechanism of Hemihydrate–Dihydrate Phosphogypsum Transformation and Minimizing Phosphorus Loss in Wet Process Phosphoric Acid. Ind. Eng. Chem. Res. 2023, 62 (50), 21590–21598.
[17] Zhou, Y.; Zheng, G.; Long, Y.; Liu, Z.; Tao, C.; Liu, R. Advanced Oxidation Processes for Wet-Process Phosphoric Acid: Enhanced Phosphorus Recovery and Removal of Organic Matters. Hydrometallurgy 2022, 210, 105842.
[18] Zhou, Y.; Wu, S.; Liu, R.; Liu, Z.; Tao, C. Efficient Recovery of Manganese and Ammonia Nitrogen from Filter-Pressing Electrolytic Manganese Residue by Organic Complexation. Journal of Water Process Engineering 2022, 45, 102532.
[19] Chen, G.; Jiang, C.; Liu, R.; Xie, Z.; Liu, Z.; Cen, S.; Tao, C.; Guo, S. Leaching Kinetics of Manganese from Pyrolusite Using Pyrite as a Reductant under Microwave Heating. Separation and Purification Technology 2021, 277, 119472.
[20] He, A.; Yang, Y.; Tao, S.; Zhou, X.; Wu, A.; Zhang, Q.; Tao, C.; Du, J. In Situ Encapsulated Co3O4 Nanoparticles into Self-Catalyzed Grown CNTs for Efficient CO2 Conversion. Fuel 2024, 358, 130057.
[21] Yang, Y.; He, A.; Li, H.; Zou, Q.; Liu, Z.; Tao, C.; Du, J. Operando Constructing Cu/Cu2O Electrocatalysts for Efficient CO2 Electroreduction to Ethanol: CO2 -Assisted Structural Evolution of Octahedral Cu2O by Operando CV Activation. ACS Catal. 2022, 12 (20), 12942–12953.
[22] He, A.; Yang, Y.; Zhang, Q.; Yang, M.; Zou, Q.; Du, J.; Tao, C.; Liu, Z. The Enhanced Local CO Concentration for Efficient CO2 Electrolysis towards C2 Products on Tandem Active Sites. Chemical Engineering Journal 2022, 450, 138009.
[23] Zhang, Q.; He, A.; Dong, W.; Du, J.; Liu, Z.; Tao, C. Co, N Co-Doped Porous Carbon Supported Spinel Co3O4 for Highly Selective Electroreduction of CO2 to Formate. Vacuum 2022, 197, 110803.
[24] Wu, M.; Lu, L.; Yang, Y.; Chang, Y.; Chen, R.; Li, Y.; Du, J.; Tao, C.; Liu, Z.; Liu, Y.; Gou, L.; Pan, S.; Ran, D.; Li, J. A Triethanolamine-Assisted Fabrication of Stable Sb Doped-SnO2/Ti Electrode for Electrocatalytic Oxidation of Rhodamine B. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2022, 634, 127976.
[25] Zhang, Q.; He, A.; Xiao, W.; Du, J.; Liu, Z.; Tao, C. Non-Aqueous Liquid Phase Synthesis of Acetic Acid via Ionic Liquid Promoted Homogeneous Carbonylation of Methanol over Ir(III) Catalysts. Bulletin of the Chemical Society of Japan 2022, 95 (3), 451–457.
[26] Yang, Y.; He, A.; Yang, M.; Zou, Q.; Li, H.; Liu, Z.; Tao, C.; Du, J. Selective Electroreduction of CO2 to Ethanol over a Highly Stable Catalyst Derived from Polyaniline/CuBi2O4. Catal. Sci. Technol. 2021, 11 (17), 5908–5916.
[27] Zhang, Q.; Tao, S.; Du, J.; He, A.; Yang, Y.; Tao, C. A Cold Plasma-Activated in Situ AgCo Surface Alloy for Enhancing the Electroreduction of CO2 to Ethanol. J. Mater. Chem. A 2020, 8 (17), 8410–8420.
[28] Qin, L.; Xu, C.; Che, Q.; Yan, F.; Xue, J.; Wei, X.; Xiang, S.; Wu, J.; Tao, C.; Liu, X.; Lee, C.-Y.; Zhang, W.; Fan, X. Aqueous Battery Fiber with High Volumetric and Areal Power Density for Flexible Electronics. Device 2024, 2 (2), 100179.
[29] Xue, J.; Che, Q.; Jiang, M.; Liu, Z.; Liu, Y.; Zhang, W.; Fan, X. Self-Organized Periodic Pattern Dynamics of Porous Copper Electrodeposition at the Industrial Large Current. Materials Today Chemistry 2023, 34, 101812.
[30] Xue, J.; Li, Y.; Jiang, M.; Wu, J.; Zhou, H.; Zhang, N.; Yang, S.; Tao, C.; Zhang, W.; Fan, X. Active Micelle Pumping Channel Triggers Nonequilibrium Surface Excess Aggregation. Langmuir 2023, 39 (34), 12260–12269.
[31] Zhou, H.; Xue, J.; Che, Q.; Kong, L.; Zhang, N.; Tao, C.; Fan, X. Rollable and Ventilated Net‐Based Solar Thermal Water Evaporator for Casting on Water Surface. Small Structures 2023, 4 (7), 2300008.
[32] Xiang, S.; Chen, G., Wen,Q.; Li, H.; Luo, X.; Zhong, J.; Carlo,A.; Fan, X.; Chen, J. Article Fully addressable textile sensor array for self-powered haptic interfacing[J].Matter,2024,7,(1):82-94.
[33] Li, A.; Yao, Y.; Tang, X.; Liu, P.; Zhang, Q.; Li, Q.; Li, P.; Zhang, F.; Wang, Y.; Tao, C.; Liu, Z. Experimental and Computational Investigation of Chaotic Advection Mixing in Laminar Rectangular Stirred Tanks. Chemical Engineering Journal 2024, 149956.
[34] Li L, Wang L, Chen X, et al. The synthesis of bayberry-like mesoporous TiO2 microspheres by a kinetics-controlled method and their hydrophilic films[J]. Crystengcomm, 2020, 22(5): 969-978.
[35] Q. Zhang, J. Du, A. He, Z. H. Liu, C. Y. Tao. Low overpotential electrochemical CO2 reduction to formate on Co3O4-CeO2/low graphitic carbon catalyst with oxygen vacancies [J]. Journal of Solid State Chemistry, 2019, 297: 120946.
[36] Q. Zhang, J. Du, A. He, Z. H. Liu, C. Y. Tao. High-selectivity electrochemical conversion of CO2 to lower alcohols using a multi-active sites catalyst of transition-metal oxides [J]. Journal of CO Utilization, 2019, 34: 635-645.
[37] Q. Zhang, A. He, Y. Yang, J. Du, Z. H. Liu, C. Y. Tao. Plasma-activated CoOx nanocluster supported on graphite intercalation compounds for improved CO2 eletroreduction to formate [J]. Journal of Materials Chemistry A, 2019, 7: 24337-24346.
[38] Qiang. Zhang, Shuihui Tao, Jun Du, Anbang He, Yong Yang, Changyuan Tao. Cold plasma-activated AgCo surface in situ alloying for enhancing CO2 electroreduction to ehanol [J]. Journal of Materials Chemistry A, 2020, 2020, 8: 8410-8420.
[39] Xiuling Zhang, Renlong Liu, et al. 3D metal dendrite-derived petaloid shaped NiFe2O4@NFM as binderless electrode for oxygen evolution reaction and electrochemical energy storage [J]. Journal of Alloys and Compounds, 2020, 813, 152219.
[40] Xiuling Zhang, Renlong Liu, et al. Controllable Constructing Alloy Dendrites with Fractal Structure as Free-standing Electrode for Enhanced Oxygen Evolution [J]. INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2020, 1, 1-11.
[41] 刘作华,熊黠,申威峰,董立春,张红晶,羡小超,魏顺安.搅拌反应器教学改革探讨[J].广东化工,2020,47(03):208-209.
[42] 刘作华,刘鑫婷,魏顺安,羡小超,董立春,陈红梅.化工设计竞赛对课程的改革意义及其未来发展方向[J].广东化工,2020,47(09):198-199.
[43] 刘作华,陶长元,刘仁龙,杜军,谢昭明,唐金晶,范兴,熊黠.化学化工两个专业学生联合指导与培养模式探索[J].广东化工,2020,47(12):219-225.
[44] 刘作华,杨林荣,熊黠,陶长元,王运东,程芳琴.多层刚柔组合桨诱发流场界面失稳强化非牛顿流体混沌混合行为[J].化工学报: 2020:1-17.
[45] 刘作华,刘鑫婷,魏顺安,董立春,羡小超,赵朔.教学赛模式在《化工设计》课程中的探索与实践[J].广东化工,2020,47(02):178-179.
[46] Xiuling Zhang, Renlong Liu, et al. Construction of Coral Shaped Ni(OH)2/Ni Dendrite and Fe2O3/Fe Dendrite Electrodes for Cable-Shaped Energy Storage Devices [J]. Journal of The Electrochemical Society, 2019, 166 (12): A2636-A2642.
[47] Yuxin Yang, Huang Zhou, Qin Zhang, Jun Du, Hai Ming, Nannan Zhang, Xing Fan, Changyuan Tao, Template-Free Electrodeposition of Dendritic Metal Blades for Efficient Flexible Manganese Oxide Electrode, Journal of The Electrochemical Society, 2019, 166 (15), A3559-A3563.
[48] 熊黠,刘作华,谷德银,邱发成,王靓,陶长元,王运东,刚柔组合桨强化粉煤灰酸浸搅拌槽内固液混沌混合[J],化工学报,2019,70(05):1693-1701.
[49] 郭岚峰,刘仁龙,刘作华,舒建成,孙小龙,陶长元,双脉冲参数对金属锰电沉积行为的影响[J],中国有色金属学报,2019,29(07):1486-1496.
[50] 邱发成,刘作华,刘仁龙,全学军,陈家兴,谷德银,李兵,王运东,偏心射流-刚柔组合桨搅拌器内混沌混合行为研究[J],化工学报,2018,69(02):618-624.
[51] 谷德银,刘作华,张姬一哲,邱发成,李军,陶长元,王运东,搅拌槽内气液两相混沌混合及分散特性[J],化工学报,2018,69(02):625-632.
[52] Yuxin Yang, Nannan Zhang, Baofeng Zhang, Yuxin Zhang, Changyuan Tao, Jie Wang, Xing Fan, Highly-Efficient Dendritic Cable Electrodes for Flexible Supercapacitive Fabric, ACS Appl. Mater. Interfaces, 2017, 9 (46), 40207–40214.
[53] 谷德银,刘作华,邱发成,许传林,谢昭明,李军,陶长元,王运东.穿流-刚柔组合桨强化固液两相的悬浮行为[J].化工学报,2017,68(12):4556-4564.
[54] Xing Fan, DianpengYang, Lifeng Ding, Jun Du, Changyuan Tao, Periodic Current Oscillation Catalyzed by delta-MnO2 Nanosheets, ChemPhyschem, 2015, 16(1): 176-180.
[55] 李东玲,杜军,刘仁龙,范兴,刘作华,陶长元.高岭土矿渣作载体的钒系脱硝催化剂研究.中国稀土学报.2012, 30: 990-993.
[56] 陶长元,于永波,刘作华,杜军,刘仁龙,范兴.钒渣酸浸液中铼的分离富集研究进展.中国稀土学报.2012, 30: 1000-1004.
[57] Xing Fan, Suyun Xi, Dagui Sun, Zuohua Liu, Jun Du, Changyuan Tao, Mn–Se interactions at the cathode interface during the electrolytic-manganese process, Hydrometallurgy,2012, 127-128:24-29.
[58] 刘作华,冉启诚,宁伟征,孙大贵,陶长元,刘仁龙,牟天明.偏心射流搅拌强化1,3-二氯-2-丁烯的氯化行为.化学工程,2012,40(2):46-50.
[59] Tao Chang-Yuan, Li mingsong ,Fan Xing ,LIU ZuoHua, Du Jun.Influence of molecular interaction on the crystallization behavior of Glycine from mother liquor[J]CHEMICAL RESEARCH IN CHINESE UNIVERSITES, 2011,V27(6): 1055- 1059.
[60] Liu Zuohua,Tao Changyuan,Du Jun,Liu Renlong,Ding Xiaohong.Decolorization of methy orange solution catalyzed by fly ash-H2O2 under microwave irradiation.2011 International Conference on Remote Sensing, Environment and transportation Engineering,(RSETE 2011),June 24th~26th,2011,Nanjing,China,5857-5863.
[61] Liu zuohua, Liu Renlong, Wang Yuzhen, Fan Xing, Tao Changyuan. Microwave –assisted degradation of waste polyethyleneterephthalate(PET)at atmospheric pressure using silicon carbide as power modulator.2011 International Conference on Remote Sensing, Environment and transportation Engineering, (RSETE 2011), Jun 24th~26th, 2011, Nanjing, China, 3276-3280.
[62] Zuo Hua Liu, Yan Li, Xiao Xia Zhou, Jun Du, Chang Yuan Tao. Research Progress of Electro-Oxidation Intensification Leaching for Refractory Ore. Advanced Materials Research, 2011,(236-238): 775-780
[63] 刘作华,宁伟征,孙瑞祥,周小霞,陶长元. 偏心空气射流双层桨搅拌反应器流场结构的分形特征.化工学报, 2011,62(3):628-635.
[64] 陶长元,郑习霞,刘作华,孙大贵. 微波辅助3-甲酰氨基吡唑-4-羧酸衍生物的合成.化学试剂, 2011,33(2):164-166.
[65] Sun Dagui, Ran Qicheng, Mou Tianming, Liu Zuohua, Tao Changyuan. Research progress of catalytic chlorination of organics.2011 International Conference on Energy and Environment, 329-331.
[66] Sun Dagui, Wu Chunxia, Liu Zuohua, Tao Changyuan. Research progress of vanadium chromium separation. 2011 International Conference on Energy and Environment,333-336.
[67] Davide Pinelli,Zuohua Liu,Franco Magelli. Analysis of KLa Measurement Methods in Stirred Vessels:The Role of Experimental Techniques and Fluid Dynamic Models.International Journal of Chemical Reactor Engineering 2010,8:1-38.
[68] Xianmin Zhang,Xiyue Huang, Zuohua Liu.The existence uniqueness of mild solution for impulsive fractional equations with nonlocal conditions and infinite delay.Nonlinear Analysis:Hybrid System,2010.
[69] Du Jun, Wang Na, Tao Changyuan, Liu Zuohua, Liu Renlong. Microwave-aided roasting for extraction of vanadium from stone coal. Chemical Industry and Engineering Progress,2010,29(s1):494-497.
[70] Liu Zuohua, Tao Changyuan, Chen Wei, Ning Weizheng, Sun Ruixiang. Research Progress of Chaotic Mixing in Stirred Tank. Chemical Industry and Engineering Progress,2010,29(s1):557-565.
[71] Liu Zuohua, Tao Changyuan, NingWeizheng, Sun Ruixiang. Study on macroinstability in stirred tank.Chemical Industry and Engineering Progress,2010,29(s1):680-684.
[72] Liu Zuohua, Xiao Cuicui, Liiu Renlong, Tao Changyuan. Removal of ammonium from steel wastewater by struvite precipitation. Chemical Industry and Engineering Progress,2010,29(s1):686-689.
[73] Tao Changyuan, XiaoCuicui, Liu Zuohua, Du Jun, Liu Renlong. Microwave-assisted leaching of vanadium from slag with sulfuric acid. Chemical Industry and Engineering Progress,2010,29(s1):690-694.
[74] Liu Zuohua, Long Yang, Li Bazhan, Ding Yong, Zhou Xiaoxia. Study on corrosion behavior of heat exchanger in water source heat pump.Chemical Industry and Engineering Progress,2010,29(s1):695-698.
[75] Gan Lihua, Liu Jian, Zou Jian, Liu Zuohua, Li Li, Li Baizhan , Tao Changyuan.Carbon polyhedrons formed by squares and hexagons obeying isolated square rule. Science in China B.2009,52 :1085-1089.
[76] Li-Hua Gan, Jian Liu, Qun Hui, Song-Qing Shao and Zuo-Hua Liu. General geometrical rule for stability of carbon polyhedra.Chem. Phys. Lett. 2009,472(4-6):224-227.
[77] Z.Z. Chu, D. Wang, C. Zhang, X. Fan, Y.W. Tang, L. Chen, and D.C. Zou.Synthesis of Dendritic Oligo-Spiro(fluorene-9,9′-xanthene)Derivatives with Carbazole and Fluorene Pendants and their Thermal,Optical, and Electroluminescent Properties.Macromol. Rapid Commun.
[78] Du Jun, Yu Jing, Tao Chang-yuan et al.Study on Preparation of Nano-Barium Carbonate by Microwave-assisted Ionic Liquid Process. Proceeding of International Symposium on Chemical Engineering of new Materials. 2009
[79] Liu Zuohua, Tao Changyuan, Du Jun, Sun Dagui, LI Bazhan. Microwave-assisted Fenton-like decolorization of methyl orange solution using chromium compounds. Journal of Chongqing University.2008,7(3):165-170.
[80] L. Chen,Y.W. Tang,X. Fan,C. Zhang,Z.Z. Chu,D. Wang,and D.C. Zou.Improvement of the efficiency of CuPc/C60-based photovoltaic cells using a multistepped structure. Organic Electrons. 2009,10(4):724-728.
[81] F.Z. Wang, J.F. Fan, X.N. Dang, X. Fan, P. Wang, X.H. Wan, D.C. Zou.Highly efficient electrochemiluminescence from Ru(II) complex with PEO-PHP-PEO as a buffer layer. Journal of Applied Physics.2008,103(10:104509-104509-4.
[82] X. Fan, Z.Z. Chu, F.Z. Wang, C. Zhang, L. Chen, Y.W. Tang, D.C. Zou. Wire-Shaped Flexible Dye-sensitized Solar Cells.Advanced Materials. 2008,20:592-595.
[83] X. Fan, J.L. Sun, F.Z. Wang, Z.Z. Chu, P. Wang, Y.Q. Dong, R.R. Hu, B.Z. Tang D.C. Zou.Photoluminescence and electroluminescence of hexaphenylsilole are enhanced by pressurization in the solid state. Chemical Communications.2008,26:2989-2991.
[84] X. Fan, Z.Z. Chu, L. Chen, C. Zhang, F.Z. Wang, Y.W. Tang, J.L. Sun, D.C. Zou.Fibrous flexible solid-type dye-sensitized solar cells without transparent conducting oxide. Applied Physics Letters. 2008,92(11):113510(1-3).
[85] Alessandro Paglianti; Zuo Hua Liu;Giuseppina Montante;Franco Magelli. Effect of Macroinstabilities in Single- and Multiple-Impeller Stirred Tanks.Industrial & Engineering Chemistry Research. 2008,47(14):4944-4952.
[86] X. Fan, F.Z. Wang, C. Zhang, L. Chen, D.C. Zou. Conductive Mesh Based Flexible Dye-sensitized Solar Cells.Applied Physics Letters. 2007,90:073501(1-3).
[87] Sun Dagui, Liu Zuohua, Du Jun, Liu Renlong, Tao Changyuan. Microwave Irradiated Purification of Wastewater Containing Phthalic Acid Esters.Journal of Central South University. 2007,14(S2):512-515.
[88] Liu Zuohua, Zhou Xiaoxia, Du Jun, Liu Renlong, Tao Changyuan. Enhanced-Fenton process for degradation of wastewater containing energetic compounds. Energetic Material. 2007,15(6):670-675.
[89] Liu Zuohua, Tao Changyuan, Ding Xiaohong, Du Jun, LI Bazhan. Degradation of 6-nitro-1,2,4-diazo acid in wastewater by microwave-fly ash catalytic system. Journal of Central South University of Technology. 2007,14(S3):254-256.
[90] Liu Zuohua, Du Jun, Tang Jinjing, Li Zequan, Tao Changyuan. microwave assisted Cu2+-H2O2 system for COD removal in landfill leachate.Journal of Central South University of Technology. 2007,14(S3): 396- 398.
[91] Liu Renlong, Liu Zuohua, Yang Xinbo, Chen Guanyi, Liu Qingcai. Removal of aqueous fluoride ion with limestone reactor.Journal of Central South University of Technology. 2007,14:409-414.
[92] Tao Changyuan, Zhang Shu-Sheng, LiuZuo-Hua, Mou Tianming, Zuo Zhaohong. Preparation of Na2CS3 with ionic liquid. Journal of Central South University of Technology.Journal of Central South University of Technology.2007,14: 380-386.
[93] Li-Hua Gan, Ruo Yuan, Chang-Yuan Tao. Comparative investigation of derivatives of C60 and its isomers.Nanosci. Nanotech. 2007,7(4-5):1353-1356.
[94] Tao Changyuan, Liu Zuohua, Du Jun, Liu Renlong. Progress in catalytic membrane reactors for removing sulfur from natural gas.Journal of Chongqing University-English Edition. 2007,6(2):88-92.
[95] 孙大贵,刘作华,曹洪彬,包秀秀,陶长元.含钒废水中氨氮回收的实验.化工进展, 2010,29(s1):669-672.
[96] 陶长元,邱调军,刘作华,杜军,范兴,刘仁龙.Fenton法再生废活性炭.化工进展.2010,29(s1):673-676.
[97] 杜军,王娜,陶长元,刘作华,范兴.石煤氧化焙烧料浸取过程的动力学.化工进展,2010,29(s1):491-493.
[98] 陶长元.完善重庆天然气化工科技创新体系的思考.科学咨询,2010,10:60.
[99] 陶长元,丁莉峰,刘作华,杜军,范兴.电解制高锰酸钾的研究进展.中国锰业,2010, 28(2): 1-5.
[100] 杜军,王娜,刘作华,于鲸,陶长元. 微波加热在冶金工业中的应用. 稀土学报. 2010, 28: 448-452.
[101] 陶长元,丁莉峰,刘作华,杜军,孙大贵. 无硒高纯电解锰研究进展. 稀土学报. 2010, 28: 795-798.
[102] 陶长元,孙大贵,刘作华,杜军,刘仁龙. 微波辅助高价锰还原浸出动力学研究. 中国锰业. 2010, 28(1): 21-24.
[103] 孙大贵,刘兵,刘作华,杜军,陶长元. 二氧化锰沉淀分离EDTA滴定法测定电解锰生产镁含量. 冶金分析. 2008, 28(11):28-31.
[104] 孙大贵,刘伟,陶长元,刘作华,杜军. 微波辅助葡萄糖还原浸出氧化锰矿. 压电与声光. 2008,30(S2):86-88.
[105] 杜军,李文艳,陶长元,刘作华,孙大贵. 微波辅助超细Mn3O4的制备研究. 压电与声光. 2008,30(183):33-35.
[106] 孙大贵,刘兵,刘作华,杜军,陶长元. 电解制锰添加剂的研究进展. 中国稀土学报. 2008,26:934-937.
[107] 杜军,杨灿,刘作华,陶长元,杨再庆. 电解金属锰表面无铬钝化技术的研究进展. 中国稀土学报. 2008,26:909-9012.
[108] 杜军,刘晓波,刘作华,陶长元,孙大贵. 菱锰矿浸取及除杂工艺的研究进展. 中国锰业. 2008,26(2):15-19.
[109] 杜军,于鲸,刘作华,陶长元. 偶氮胂Ⅲ分光光度法测定八水氢氧化钡的微量锶. 冶金分析. 2009,29(7):61-64.
[110] 刘作华,胥江河,陶长元,刘仁龙,李百战. 微波诱导粉煤灰-H2O2处理垃圾渗滤液的研究. 压电与声光. 2008,30(6):732-737.
[111] 刘作华,刘仁龙,牟天明,左赵宏,陶长元. 微波促进含铬废渣催化H2O2降解甲基橙溶液研究.光谱学与光谱分析(中文版). 2008,28(8):1900-1906.
[112] 杜军,熊中平,陶长元,曹渊,程文武. 电场作用下镍钴复合膜的制备及吸波性能研究. 压电与声光. 2009,31(2):237-239.
[113] 杜军,刘晓波,程文武,陶长元. 钯纳米现制备的研究进展. 化学通报(印刷版). 2008,12:900-905.
[114] 杜军,程文武,刘作华,陶长元. 微波法制备锰锌铁氧体粉体. 压电与声光. 2008,30:129-131.
[115] 陶长元,高麦霞,杜军,左赵宏,刘作华. 微波辐射法合成间位芳香族聚酰胺. 压电与声光. 2008,30(183):60-63.
[116] 刘作华,陶长元,杜军,张占龙,李百战. 微波-离子液体催化菜籽油制备生物柴油的研究. 压电与声光. 2008,30(5):634-637.
[117] 陶长元,刘平,杜军,刘作华. 微波辅助生物质能转化利用的研究进展. 压电与声光.2008,30(S2):67-79.
[118] 陶长元,孙思,刘作华,杜军,范兴. 电解锰合格液结晶行为及抑晶机理研究. 中国稀土学报,2012,30: 225-230.
[119] 丁莉峰,范兴,廖龙发,杜军,刘作华,陶长元. 电化学振荡对电解制高锰酸钾过程能耗的影响. 中国稀土学报,2012,30: 261-265.
[120] 陶长元,侯军,范兴,杜军,刘作华. 电解锰过程中的阳极电势振荡行为. 中国稀土学报, 2012, 30: 266-271.
[121] 孙大贵,童贤清,范兴,刘作华,杜军,陶长元. 电解锰阴极电沉积分形行为的研究. 中国稀土学报, 2012,30: 272-276.
[122] 陶长元,李敏,刘作华,杜军,陈燕,范兴. 利用复杂含锰废渣提取金属锰的研究. 中国稀土学报, 2012,30: 565-570.
[123] 朱俊, 周政霖, 刘作华, 郑雄攀, 刘仁龙, 陶长元, 王运东. 刚柔组合搅拌桨强化流体混合的流固耦合行为[J]. 化工学报, 2015, 66(10): 3849-3856.
[124] 刘作华,周政霖,朱俊,刘仁龙,陶长元,王运东,彭毅.湿法提钒浸出段搅拌反应器结构的优化.化工进展,2015,34(5):1241-1245.
[125] 刘作华,李艳,杜军,刘仁龙,范兴,陶长元.电场强化转炉钒渣选择性浸取的研究.中国稀土学报.2012,30: 906-910.