化学工程联合国家重点实验室  
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姓名:刘洪来
职称:教授
所属单位:华东理工大学
电话:021-64252921
传真:021-64252921
电子邮件:hlliu@ecust.edu.cn

教育背景:
1997/09-1992/06,华东理工大学,化学工程专业,博士研究生
1982/09-1985/02,华东理工大学,化学工程专业,硕士研究生
1978/10-1982/06,华东理工大学,化学工程系,本科

工作经历:
2005/10-至今,华东理工大学,化学实验教学中心主任
2000/05-2006/09,华东理工大学,化学与制药(分子工程)学院副院长
1995/01-2001/06,华东理工大学,应用化学研究所副所长
1995/08-至今,华东理工大学,化学系,教授
1992/08-1995/07,华东理工大学,应用化学研究所,副研究员
1987/08-1992/07,华东理工大学,应用化学研究所,讲师
1985/03-1987/07,华东理工大学,化学系助教

研究方向:
分子热力学,界面现象和理论,CO2捕集分离材料

学术要点:
1. 分子热力学
  准确可靠的化工流体的热力学性质、传递性质和相平衡关系数据及其计算,是化工过程开发和设计、模拟放大和优化控制的重要基础。分子热力学从分子水平上研究流体的热力学性质、传递性质和相平衡关系,阐明流体的微观结构,建立分子热力学模型,为化工过程开发、设计和模拟优化提供基础数据和计算模型。统计力学理论、分子模拟和实验测定三者相结合是目前分子热力学研究的主要方法:在简化的分子结构和势能函数模型基础上,通过严格的统计力学理论推导、合理的数学简化、与分子模拟结果比较,得到形式简单、与理论一致的分子热力学模型,最后采用少量的实验数据确定所研究系统的分子结构和势能函数模型参数,即可得到在较大的温度、压力和组成范围内工程实际应用的分子热力学模型。近年来,我们主要在链状流体的状态方程和混合亥氏函数模型的建立及其在离子液体、高分子溶液、聚电解质溶液、DNA溶液等的应用方面开展研究工作。
2、界面现象和理论
  大部分化工过程都涉及多相系统的相际传递过程,尽管相际界面通常只有几个分子的厚度,但该区域的密度或组成变化剧烈,其分子受到不对称的作用力,往往表现出与体相不一样的性质和复杂行为,具有高度的复杂性和动态变化的特性,往往表现出非平衡、非线性的行为,它们与系统中包含的界面活性物质在界面区的富集并形成特殊的纳微结构有关,并影响物体的粘附、浸润、润滑、电性质、光学性质、渗透性、生物兼容性和化学反应能力等性质。对流体界面行为的研究已经成为化工、环境、资源、生物、药物和新材料等众多领域共同的研究热点和学术前沿。对界面现象和流体行为的研究,除了进行实验测定和观察外,分子模拟(分子动力学或Monte Carlo)和密度泛函理论是两种最有效的理论研究方法。近年来,我们针对固液界面高分子的密度或组成分布、分子聚集态结构以及固体表面聚合物刷的微观结构及其对固体表面性质的影响等开展了深入研究。
3、CO2捕集分离材料
  大量观察表明,人类社会活动消耗化石能源造成的CO2等温室气体的大量排放,对全球气候造成了重要影响,以最低的成本收集各种工业过程中产生的CO2并加以合理利用或进行封存,是目前迫切需要解决的问题。吸收和吸附分离是最有可能获得工程应用的两种CO2捕集分离技术,开发具有高吸收(附)容量、高CO2吸收(附)选择性、低解吸能耗的CO2捕集剂是关键。我们主要通过量子化学计算和分子模拟结合,探索包括离子液体、氨基修饰介孔分子筛、多孔聚合物等捕集剂对CO2的吸收、吸附性能,为相关材料的开发提供理论指导。实验合成多孔材料并进行表面化学改性,开发新型CO2捕集剂。

荣誉和奖励:
  1997、1999年上海市优秀青年教师,2000年获国家杰出青年科学基金资助、上海市教育委员会“曙光”学者,2005年教育部教育部长江学者特聘教授,2009年上海市领军人才。2009年以来作为负责人承担了863计划重点课题、国家自然科学基金重点项目等一批重要项目和课题。发表SCI收录论文120余篇;获授权中国发明专利7项;编写本科实验教材1部,参编专著4部,在国际学术会议上做邀请报告7次。“通过温度、压力和液相组成的测定获得完整汽液平衡数据的研究”获1992年国家教委科技进步二等奖(第2获奖人);“高分子系统的分子热力学”获1998年教育部科技进步一等奖(第2获奖人);“多分散系统的连续热力学”获2003年上海市科技进步二等奖(第3获奖人);“复杂流体的分子热力学”获2011年上海市自然科学一等奖(第1获奖人);“深化物理化学课程改革,提升精品课程建设质量”获2009年度上海市教学成果一等奖(第3获奖人)。
  现任《华东理工大学学报(自然科学版)》主编,《化工学报》、《Chinese J Chem.》、《过程工程学报》、《Frontiers Chem. Sci. Eng.》编委。

代表性论著:
[1]Lian C., Wang L., Chen X. Q.*, Han X., Zhao S. L., Liu H. L.*, Hu Y., Modeling swelling behavior of thermoresponsive polymer brush with lattice density functional theory, Langmuir, 30(14), 2014: 4040-4048.
[2]Zhou J. H., Zhu X., Hu J., Liu H. L.*, Hu Y., Jiang J. W.*, Mechanistic insight into highly efficient gas permeation and separation in a shape-persistent ladder polymer membrane, Phys. Chem. Chem. Phys., 16(13), 2014: 6075 – 6083.
[3]Peng B. L., Han X., Liu H. L.*, Tan K. C.*, Binding of cationic surfactants to a thermo-sensitive copolymer below and above its cloud point, J. Colloids Interf. Sci., 412, 2013: 17-23.
[4]Zhu X., Tian C. C., Chai S. H., Nelson K., Han K. S., Hagaman E. W., Veith G. M., Mahurin S. M.*, Liu H. L.*, Dai S.*, New Tricks for old molecules: Development and application of porous N-doped, carbonaceous membranes for CO2 separation, Adv. Mater., 25(30), 2013: 4152-4158.
[5]Zhu X., Do-Thanh C. L., Murdock C. R., Nelson K. M., Tian C. C., Brown S., Mahurin S. M., Jenkins D. M., Hu J., Zhao B., Liu H. L.*, Dai S.*, Efficient CO2 capture by a 3D porous polymer from tr?ger’s base, ACS Macro Letter, 2(8), 2013: 660-663.
[6]Zhao S. L.*, Liu Y., Liu H. L., Wu J. Z.*, Site-site direct correlation functions for three popular models of liquid water, J. Chem. Phys., 139(6), 2013: 064509。
[7]Xu S. H., Li X. Y., Chen R. T., Lin X. X., Liu H. L.*, Hu Y., Preparation of a gel-coated liposome and its application in drug release, J. Chem. Techn. Biotechn., 88(8), 2013: 1561-1567。
[8]Lian C., Zhi D. Y., Xu S. H.*, Liu H. L., Hu Y., A lattice model for thermally-sensitive core-shell hydrogels, J. Colloid Interf. Sci., 406, 2013: 148-153。
[9]Zhao S. L.*, Liu H. L., Ramirez R., Borgis D.*, Accurate evaluation of the angular-dependent direct correlation function of water, J. Chem. Phys., 139(3), 2013: 034503。
[10]Hu Y. F., Lv W. J., Shang Y. Z., Liu H. L.*, Wang H. L.*, Suh S. H., DMSO Transport across Water/Hexane Interface by Molecular Dynamics Simulation, Ind. Eng. Chem. Res., 52(19), 2013: 6550-6558。
[11]Xu Y. L., Chen X. Q.*, Han X., Xu S. H., Liu H. L.*, Hu Y., Lock/unlock Mechanism of Solvent-Responsive of Binary Polymer Brushes: Density Functional Theory Approach, Langmuir, 29(16), 2013: 4988-4997。
[12]Han X., Zhang X. X., Yin Q. Y., Liu H. L.*, Hu Y., Thermoresponsive Diblock Copolymer with Tunable Soluble-Insoluble and Soluble-Insoluble-Soluble Transitions, Macrom. Rapid Comm., 34(7), 2013: 574-580。
[13]Zhu X., Chai S. H., Tian C. C., Fulvio P., Han K. S., Hagaman E. W., Veith G. M., Mahurin S. M., Brown S., Liu H. L., Dai S., Synthesis of Porous, Nitrogen-Doped Adsorption/Diffusion Carbonaceous Membranes for Efficient CO2 Separation, Macrom. Rapid Comm., 34(5), 2013: 452-459。
[14]Peng B. L., Han X., Liu H. L.*, Berry R.C., Tam K.C.*, Interactions between surfactants and polymer-grafted nanocrystalline cellulose, Colloids Surf. A: Physicochem. Eng. Aspects, 421, 2013: 142-149。
[15]Han X., Zhang X. X. , Zhu H. F., Yin Q, Y., Liu H. L.*, Hu Y., Effect of composition of PDMAEMA-b-PAA block copolymers on their pH- and temperature-responsive behaviors, Langmuir, 29(4), 2013: 1024-1034。
[16]Zhu X., Hillesheim P. C., Mahurin S. M., Wang C. M., Tian C. C., Brown S., Luo H. M., Veith G. M., Han K. S., Hagaman E. W., Liu H. L., Dai S., Efficient CO2 capture by porous, nitrogen-doped carbonaceous adsorbents derived from task-specific ionic liquids, ChemSusChem, 5(10), 2012: 1912-1917。
[17]Zhu Y. J., Zhou J. H., Hu J., Liu H. L., The effect of grafted amine group on the adsorption of CO2 in MCM-41, A molecular simulation, Catalysis Today, 194(1), 2012: 53-59
[18]Liu Y., Shang Y. Z., Liu H. L.*, Hu Y., Jiang J. W.*, Crowding effect on DNA melting: a molecular thermodynamic model with explicit solvent, Phys. Chem. Chem. Phys., 14(44), 2012: 15400-15405.
[19]Ren H. Q., Jin J. Y., Hu J., Liu H. L., Affinity between MOFs and PI in asymmetric mixed matrix membranes for gas separations, Ind. Eng. Chem. Res., 51(30), 2012: 10156-10164.
[20]Zhu X., Tian C. C., Mahurin S. M., Chai S. H., Wang C. M., Brown S., Veith G. M., Luo H. M., Liu H. L., Dai S., A Superacid-Catalyzed Synthesis of Porous Membranes Based on Triazine Frameworks for CO2 Separation, J. Am. Chem. Soc., 134(25), 2012: 10478-10484.
[21]Ma J., Li J. L., He C. C., Peng C. J., Liu H L., Hu Y., Thermodynamic properties and vapor-liquid equilibria of associating fluids, Peng-Robinson Equation of State Coupled with Shield-Sticky model, Fluid Phase Equilibria, 330(1), 2012: 1-11.
[22]Zhu Y. J., Zhou J. H., Hu J., Liu H. L., Hu Y., Computer simulation of gas adsorption in modified COF-108: The impregnation of C60 into COF-108, Molec. Simul., 38(7), 2012: 595-603.
[23]Peng B. L., Grishkewich N., Yao Z. L., Han X., Liu H. L., Tam K. C., Novel self-assembly behavior of thermo-responsive oligo (ethylene glycol) methacrylates random copolymers, ACS Macro Letter, 1(5), 2012: 632-635
[24]Liu Z. H., Shang Y. Z.*, Feng J., Peng C. J., Liu H. L., Hu Y., Effect of hydrophilicity and hydrophobicity of polyelectrolyte on the interaction between polyelectrolyte and surfactants: Molecular dynamics simulations, J. Phys. Chem. B, 116(18), 2012: 5516-5526.
[25]Yan W., Tang J., Bian Z. J., Hu J., Liu H. L., Carbon dioxide capture by amine-impregnated mesocellular foam containing template, Ind. Eng. Chem. Res., 51(9), 2012: 3653-3662.
[26]Chen Q. B., Kang X. L., Li R., Du X. Z., Shang Y. Z., Liu H. L., Hu Y., The structure of the complex monolayer of Gemini surfactant and DNA at the air/water interface, Langmuir, 28(7), 2012: 3429-3438.
[27]He C. C., Li J. L., Peng C. J.*, Liu H. L., Hu Y., Capturing thermodynamic behavior of ionic liquid systems: Correlations with SWCF-VR equation, Ind. Eng. Chem. Res., 51(7), 2012: 3137-3148.
[28]Xu Y. L., Chen X. Q.*, Chen H. Y., Xu S. H., Liu H. L., Hu Y., Density functional theory for the selective adsorption of small molecules on a surface modified with polymer brushes, Molec. Simul., 38(4), 2012: 274-283.
[29]He Y. F., Shang Y. Z., Liu H. L., Langevin D., Salonen A., Surfactant adsorption onto interfaces: measuring the surface excess in time, Langmuir, 28(6), 2012: 3146-3151.
[30]Gao F., Hu J., Peng C. J., Liu H. L., Hu Y., Synergic effects of imidazolium ionic liquids on P123 mixed micelles for inducing micro/mesoporous materials, Langmuir, 28(5), 2012: 2950-2959.
[31]Xiong Y., Ding J., Yu D. H., Peng C. J., Liu H. L., Hu Y., Volume Connectivity Index: A New Approach for Estimation of Density of Ionic Liquids, Ind. Eng. Chem. Res., 50(24), 2011: 14155-14161.
[32]Yang L., Sandler S. I., Vlachos D. G., Peng C. J., Liu H. L., Hu Y., Adsorption and Diffusion of methanol, Glycerol, and their mixtures in a metal organic framework, Ind. Eng. Chem. Res., 50(24), 2011: 14084-14089.
[33]Deng S. W., Zhao X. Z., Huang Y. M., Han X., Liu H. L., Hu Y., Deformation and fracture of polystyrene/polypropylene blends: A simulation study, Polymer, 52, 2011: 5681-5694.
[34]Zhi D. Y., Huang Y. M.*, Xu S. H., Liu H. L., Hu Y., Molecular thermodynamic model for swelling behavior and volume phase transition of multi-responsive hydrogels, Fluid Phase Equilibria, 312(1), 2011: 106-115.
[35]Ren Y. Q., Shui H. Z., Peng C. J.*, Liu H. L., Hu Y., Solubilities of element sulfur in pure organic solvents and organic solvent-ionic liquid mixtures from 293.15 to 353.15K, Fluid Phase Equilibria, 312(1), 2011: 31-36.
[36]Jin Y. X., Tang J., Hu J., Han X., Shang Y. Z., Liu H. L., one-step fabrication of ultralow dielectric polyimide films consisting of size-controlled mesoporous nanoparticles, Colloids Surf. A: Physcochem. Eng. Aspects, 392(1), 2011: 178-186.
[37]Peng B. L., Dhar N., Liu H. L., Tam, K.C.*, Chemistry and applications of nanocrystalline cellulose and its derivatives: A nanotechnology perspective, Can J. Chem. Eng., 89(11), 2011: 1191-1206.
[38]He Y. F., Shang Y. Z., Shao S., Liu H. L., Hu Y., Micellization of cationic Gemini surfactant and its interaction with DNA in dilute brine, J. Colloid Interf. Sci., 358(2), 2011: 513-520.
[39]Li J. L., He C. C., Peng C. J., Liu H. L., Hu Y., Paricaud P., Modeling of the thermodynamic properties of aqueous ionic liquid solutions with an equation of state for square well chain fluid with variable range, Ind. Eng. Chem. Res., 50(11), 2011: 7027-7040.
[40]Ren Y. Q., Wang Y., Liu G. M., Peng C. J.*, Liu H. L., Hu Y., Solubilities of MCl (M=Na, K) in Aqueous System Containing the Ionic Liquids [Bmim]Cl from (298.15 to 343.15) K, J. Chem. Eng. Data, 56(4), 2011: 1341-1347.
[41]Fan D. F., Li J. L., Shi J. B., Peng C. J.*, Liu H. L., Hu Y., Paricaud P., Vapor-liquid equilibria in the propyl acetate + acetate acid binary system from (323.15 to 353.15)K: Measurement with a static method and modeling with NRTL, Wilson, UNIQUAC and COSMO-SAC approaches, J. Chem. Eng. Data, 56(4), 2011: 1323-1329.
[42]Zhu X., Lu Y. X., Peng C. J., Hu J., Liu H. L.*, Hu Y., Halogen Bonding Interactions between Brominated Ion Pairs and CO2 Molecules: Implications for Design of New and Efficient Ionic Liquids for CO2 Absorption, J. Phys. Chem. B, 115(14), 2011: 3949-3958.
[43]Xiong Z. Y., Peng B. L., Han X.*, Peng C. J., Liu H. L., Hu Y., Dual-stimuli responsive behaviors of Diblock Polyampholyte PDMAEMA-b-PAA in Aqueous Solution, J. Colloid Interf. Sci., 356(2), 2011: 557-565.
[44]Hu J., Gao F., Shang Y. Z., Peng C. J., Liu H. L.*, Hu Y., One-step synthesis of micro/ mesoporous materials templated by CTAB and imidazole ionic liquid in aqueous solution, Micropore and Mesopore Material, 142(1), 2011: 268-275.
[45]He C. C., Li J. L., Ma J., Peng C. J.*, Liu H. L., Hu Y., Equation of state for square-well chain molecules with variable range: Extension to associating fluids, Fluid Phase Equibria, 302(1-2), 2011: 139-152.
[46]Feng J., Ge X. T., Shang Y. Z., Zhou L. H., Liu H. L.*, Hu Y., Translocation of polymer through a naopore studied by Dissipative Particle Dynamics, Fluid Phase Equilibria, 302(1-2), 2011: 26-31.
[47]Xu X. C., Peng C. J., Liu H. L., Hu Y., A lattice-fluid model for multi-component ionic-liquids systems, Fluid Phase Equilibria, 302(1-2), 2011: 260-268.
[48]Cao Z. F., Chen Q. B., Wang C. W., Ren Y. J., Liu H. L., Hu Y., Interfacial behaviors and aggregate structure of atropisomers of “picket-fence” porphyrin at the air/water interface, Colloids Surf. A: Physcochem. Eng. Aspects, 377(1-3), 2011: 130-137.
[49]Liu Y., Shang Y. Z., Liu H. L.*, Hu Y., Jiang J. W.*, DNA Melting in Slit Pores: A Reaction Density Functional Theory, J. Phys. Chem. B, 115, 2011: 1848-1855.
[50]Xiao X. Q., Huang Y. M.*, Feng J., Liu H. L., Hu Y., Microphase separation of a diblock copolymer dispersed in nanorods array grafted on a plate: A Monte Carlo study, Macrom. Theory Simul., 20(2), 2011: 124-132.
[51]Chen X. Q., Chen H. Y., Liu H. L.*, Hu Y., A free-space density functional theory for polymer adsorption: Influence of packing effect on conformations of polymer, J. Chem. Phys., 134(4), 2011: 044713.
[52]Hu J., Cai H. P., Ren H. Q., Wei Y. M., Xu Z. L., Liu H. L.*, Hu Y., Mixed matrix membrane hollow fibers of Cu3(BTC)2 MOF and polyimide for gas separation and adsorption, Ind. Eng. Chem. Res., 49(24), 2010: 12605-12612.
[53]Yang L., Sandler S. I., Peng C. J., Liu H. L., Hu Y., Prediction of the Phase Behavior of Ionic Liquid Solutions, Ind. Eng. Chem. Res., 49(24), 2010: 12596-12604.
[54]Yang L., Xu X. C., Peng C. J., Liu H. L.*, Hu Y., Prediction of vapor–liquid equilibrium for polymer solutions based on the COSMO-SAC model, AIChE J., 56(10), 2010: 2687-2698.
[55]Shang Y. Z., Wang T. F., Han X., Peng C. J.*, Liu H. L., Effect of ionic liquids CnmimBr on properties of Gemini 12-3-12 aqueous solution, Ind Eng. Chem. Res., 49(18), 2010: 8852-8857.
[56]Liu Y., Kermanpour F., Liu H. L.*, Hu Y., Shang Y. Z., Sandler S. I., Jiang J. W.*, A Molecular Thermodynamic Model for DNA Melting in Ionic and Crowded Solutions, J. Phys. Chem. B, 114(30), 2010: 9905-9911.
[57]Li R., Chen Q. B.*, Liu H. L., Hu Y., Influence of spacer of gemini on the interaction between cationic gemini surfactant and stearic acid in mixed monolayers, Langmuir, 26(12), 2010: 9342-9350.
[58]Zhuo S. C., Huang Y. M., Peng C. J., Liu H. L.*, Hu Y., Jiang J. W., CO2-Induced Microstructure Transition of Surfactant in Aqueous Solution: Insight from Molecular Dynamics Simulation, J. Phys. Chem. B, 114(19), 2010: 6344-6349.
[59]Chen H. Y., Chen X. Q., Ye Z. C., Liu H. L., Hu Y. Competitive Adsorption and Assembly of Block Copolymer Blends on Nanopatterned Surfaces, Langmuir, 26(9), 2010: 6663-6668.
[60]Zhi D. Y., Huang Y. M., Han X., Liu H. L., Hu Y., A molecular thermodynamic model for temperature- and solvent-sensitive hydrogels, application to the swelling behavior of PNIPAm gels in ethanol/water mixture, Chem. Eng. Sci., 65(10), 2010: 3223-3230.
[61]Liu Y., Chen X. Q., Liu H. L., Hu Y., Jiang J. W., A density functional theory for Yukawa chain fluids in a nanoslit, Molec. Simul., 36(4), 2010: 291-301.
[62]Li J. X., Xiong Z. Y., Zhou L. H., Han X., Liu H. L., Effects of pore structure of mesoporous silicas on the electrochemical properties of hemoglobin, Microporous and Mesoporous Materials, 130(1-3), 2010: 333-337.
[63]Liu Y., Liu H. L.*, Hu Y., Jiang J. W.*, Density Functional Theory for Adsorption of Gas Mixtures in Metal–Organic Frameworks, J. Phys. Chem. B, 114(8), 2010: 2820-2827.
[64]Peng B. L., Hao Y. L., Kong H. M., Han X., Peng C. J., Liu H. L., Aggregation behavior of N-carboxyethylchitosan in aqueous solution: effects of pH, polymer concentration, and presence of a gemini surfactant, Carbohydrate Research, 345(1), 2010: 101-107.
[65]Xu X. C., Peng C. J., Liu H. L.*, Hu Y., Modeling pVT properties and phase equilibria for systems containing ionic liquids using a new lattice fluid equation of state, Ind. Eng. Chem. Res., 48(24), 2009: 11189-11201.
[66]Li J. L., Tong M., Peng C. J., Liu H. L., Hu Y., Equation of State for Square-well Chain Molecules with Variable Range II. Extension to Mixtures, Fluid Phase Equilibria, 287(1), 2009: 50-61.
[67]Li J. L., He H. H., Peng C. J., Liu H. L., Hu Y., Equation of state for square-well chain molecules with variable range I. application for pure substances, Fluid Phase Equilibria, 286(1), 2009: 8-16.
[68]Liu Y., Liu H. L.*, Hu Y., Jiang J. W.*, Development of a three-dimensional density functional theory for H2 storage in metal-organic frameworks, J. Phys. Chem. B, 113(36), 2009: 12326-12331.
[69]Xu X. C., Peng C. J., Cao G. P., Liu H. L.*, Hu Y., Application of a new lattice fluid equation of state based on chemical association theory for polymer systems, Ind. Eng. Chem. Res., 48(16), 2009: 7828-7837.
[70]Chen X. Q., Sun L., Liu H. L.*, Hu Y., Jiang J. W., A new lattice density functional theory for polymer adsorption at solid-liquid interface, J. Chem. Phys., 131(4), 2009: 044710.
[71]Kang H. M., Peng B. L., Liang Y. Y., Han X., Liu H. L., Study of the interaction between a diblock polyelectrolyte PDMA-b-PAA and gemini surfactant 12-6-12 in basic media, J. Colloid Interf. Sci., 333(1), 2009: 135-140.
[72]Xu S. H., Liu A. P., Chen Q. B., Lv M. Y., Yonese M., Liu H. L.*, Self-assembly nano-structure of type I collagen adsorbed on Gemini surfactant LB monolayers, Colloid Surf. B. Biointef., 70, 2009: 124-131.
[73]Tang J., Fan Y. B., Hu J., Liu H. L., Fabrication of Ordered Lamellar Polyacrylamide/P123 Composite membrane via Solvent-Evaporation-Induced Self-assembly, J. Colloid Interf. Sci., 331(1), 2009: 191-195.
[74]Li J. L., He H. H., Peng C. J., Liu H. L., Hu Y., A New Development of the Equation of State for Square-well Chain-like Molecules with Variable Width 1.1???3, Fluid Phase Equilibria, 276, 2009: 57-68.
[75]朱祥,吕文杰,胡军,汪华林,刘洪来*. 有机多孔聚合物CO2捕集及分离性能的研究进展,化工学报,65(5), 2014: 1553-1561.
[76]罗志林, 李进龙, 彭昌军, 刘洪来. 利用变阱宽方阱链流体状态方程计算1:1电解质溶液热力学性质,化工学报,65(1), 2014: 39-46.
[77]支东彦,练成,徐首红,黄永民,刘洪来. 随机共聚高分子凝胶溶胀和体积相变行为的分子热力学模型,化工学报,64(1), 2012: 268-274.
[78]任颖倩,陆轶群,彭昌军,刘洪来. MBr (M = Na, K) 在离子液体[Bmim][Br]水溶液中的溶解度,化工学报,63(10), 2012: 3011-3016.
[79]何昌春,朱虹,彭昌军,刘洪来,胡英. 变阱宽方阱链流体状态方程应用于CO2-物理吸收溶剂系统,中国科学(化学),42(3), 2012: 282-290.
[80]熊焰,丁靖,虞大红,彭昌军,刘洪来. 离子液体热物理性质与相行为预测的基团贡献法,化工学报,63(3), 2012: 667-676.
[81]许裕栗,陈学谦,陈厚样,徐首红,刘洪来. 接枝聚合物对小分子的选择性吸附,物理学报,60(11), 2011: 117104.
[82]熊焰,丁靖,虞大红,彭昌军,刘洪来,质量连接性指数改进的基团贡献法预测咪唑类离子液体的熔点,化工学报,62(12), 2011: 3316-3322.
[83]康雪丽,陈启斌,尚亚卓,刘洪来. Gemini表面活性剂与DNA在气/液界面上的相互作用研究,物理化学学报,27(6), 2011: 1467-1473.
[84]刘振海,尚亚卓,黄永民,彭昌军,刘洪来. 大离子诱导聚电解质/表面活性剂复合物的解离, 物理化学学报,27(5), 2011: 1135-1142.
[85]马燕辉,赵会玲,唐圣杰,胡军,刘洪来. 微孔/介孔复合分子筛的合成及其对CO2的吸附性能,物理化学学报,27(3), 2011: 689-696.
[86]王万霞,何云飞,尚亚卓,刘洪来. Gemini表面活性剂(12-6-12,2Br-)和DNA的相互作用研究,物理化学学报,27(1), 2011: 156-162.
[87]冯剑,尚亚卓,周丽绘,刘洪来. 生物大分子在纳米微孔迁移运动研究进展,化工学报,61(10), 2010: 2501-2509.
[88]李进龙,何昌春,彭昌军,刘洪来,胡英,基于化学缔合统计理论的链状流体状态方程,中国科学:化学,40(9), 2010: 1198-1209.
[89]马俊,李进龙,彭昌军,刘洪来,胡英,基于粘滞球模型的CPA状态方程应用于醇胺系统相平衡的计算,化工学报,61(7), 2010: 1734-1739.
[90]何清,李进龙,何昌春,彭昌军,刘洪来. 状态方程模拟醇胺系统的密度和汽液相平衡,化工学报,61(4), 2010: 812-819.
[91]刘维俊,黄永民,彭昌军,刘洪来. 多重响应壳聚糖微凝胶的制备及溶胀性,化工学报,60(8),2009: 2101-2106.
[92]赵小芳, 何云飞, 尚亚卓, 韩霞, 刘洪来. 电解质和乙醇对DNA与Gemini表面活性剂相互作用的影响,物理化学学报,25(5), 2009: 853-858.
[93]李进龙,彭昌军,刘洪来. 变阱宽方阱链流体状态方程模拟制冷剂的汽液平衡, 化工学报,60(3), 2009: 545-552.
[94]路霞, 唐静, 范玉冰, 胡军, 刘洪来. 反相微乳液模板法合成介孔聚苯乙烯, 物理化学学报,25(1), 2009: 178-182

 
   
     
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