SCHOOL OF CHEMICAL ENGINEERING

教师登录系统

工号:

密码:

验证:

查询:

知名学者

刘昌俊

现任职称/职务:长江学者特聘教授、国家杰出青年基金获得者、第十二、十三届全国政协委员、英国皇家化学会会士、全国百篇优秀博士学位论文指导教师、国务院学位委员会第七届学科评议组成员(化学工程与技术)
通讯地址:天津大学796666信箱,天津300072
电子邮箱:cjL@tju.edu.cn
办公电话:27406490

论著专利:

2022

1. Chenyang Shen, Qianqian Bao, Wenjuan Xue, Kaihang Sun, Zhitao Zhang, Xinyu Jia, Donghai Mei, Chang-jun Liu, Synergistic effect of the metal-support interaction and interfacial oxygen vacancy for CO2 hydrogenation to methanol over Ni/In2O3 catalyst: A theoretical study, Journal of Energy Chemistry 65 (2022) 623–629


2021

1. Jing Wang, Kaihang Sun, Xinyu Jia, Chang-jun Liu, CO2 hydrogenation to methanol over Rh/In2O3 catalyst, Catalysis Today, 365 (2021) 341–347

2. Zongyuan Wang, Jiajun Wang, Zeyu Sun, Wenlong Xiang, Chenyang Shen, Ning Rui, Mingzhu Ding, Yingjin Yuan, Honggang Cui, Chang-jun Liu, Electron-induced rapid crosslinking in supramolecular metal-peptide assembly and chemically responsive disaggregation for catalytic application, Chinese Journal of Catalysis 42 (2021) 376–387  

3. Ning Rui, Xiaoshan Zhang, Feng Zhang, Zongyuan Liu, Xinxiang Cao, Zhenhua Xie, Rui Zou, Sanjaya D. Senanayake, Yanhui Yang, José A. Rodriguez, and Chang-Jun Liu, Highly Active Ni/CeO2 Catalyst for CO2 Methanation: Preparation and Characterization, Applied Catalysis B: Environmental, 282 (2021) 119581  

4. Wenlong Xiang, Chenyang Shen, Zhe Lu, Si Chen, Xiang Li, Rui Zou, Yueping Zhang, Chang-jun Liu, CO2 cycloaddition over ionic liquid immobilized hybrid zeolitic imidazolate frameworks: effect of Lewis acid/base sites, Chemical Engineering Science, 2021, 233: 116429

5. Chenyang Shen, Kaihang Sun, Zhitao Zhang, Ning Rui, Xinyu Jia, Donghai Mei, Chang-jun Liu. Highly Active Ir/In2O3 Catalysts for Selective Hydrogenation of CO2 to Methanol: Experimental and Theoretical Studies. ACS Catalysis 2021, 11 (7), 4036-4046

6. Yang Liu, Wenjuan Xue, Seungwan Seo, Xuechao Tan, Donghai Mei, Chang-jun Liu, In-Sik Nam, Suk Bong Hong, Water: A promoter of ammonia selective catalytic reduction over copperexchanged LTA zeolites, Applied Catalysis B: Environmental, 294 (2021) 120244

7. Kaihang Sun, Ning Rui, Chenyang Shen and Chang-jun Liu, Theoretical Study of Selective Hydrogenation of CO2 to Methanol over Pt4/In2O3 Model Catalyst, The Journal of Physical Chemistry C, 2021, 125, 10926−10936

8. Kaihang Sun, Zhitao Zhang, Chenyang Shen, Ning Rui, Chang-jun Liu, The feasibility study of the indium oxide supported silver catalyst for selective hydrogenation of CO2 to methanol, Green Energy & Environment, 10.1016/j.gee.2021.05.004

9. Xue Hu, Xinyu Jia, Chang-jun Liu, The structural effect of Ni/ZrO2 on the formation and the reactivity of the carbon formed from methane decomposition, Chemical Engineering Science: X 11 (2021) 100104

10. Q. Wu, C. Shen, N. Rui, K. Sun, C. Liu, Experimental and theoretical studies of CO2 hydrogenation to methanol on Ru/In2O3, Journal of CO2 Utilization 53 (2021) 101720

11. Yuxiao Dai, Rui Zou, Teer Ba, Jie Zhang, Chang-jun Liu, Highly active and coke resistant Ni/CeZrO2 catalyst prepared by cold plasma decomposition for CO2 reforming of methane, Journal of CO2 Utilization, 51 (2021) 101647


2020

1. Wenlong Xiang, Zeyu Sun, Yurong Wu, Liang-Nian He, Chang-jun Liu, Enhanced cycloaddition of CO2 to epichlorohydrin over zeolitic imidazolate frameworks with mixed linkers under solventless and co-catalyst-free condition, Catal. Today 339 (2020) 337–343

2. Wenlong Xiang, Sebastian Gebhardt, Roger Gläser, Chang-jun Liu, Millimeter-scale magnetic spherical metal-organic framework core-shell structured composites for recyclable catalytic applications, Microporous and Mesoporous Materials, 300 (2020) 110152 

3. Xinyu Jia, Kaihang Sun, Jing Wang, Chenyang Shen, Chang-jun Liu, Selective hydrogenation of CO2 to methanol over Ni/In2O3 catalyst, Journal of Energy Chemistry, 50(2020) 409-415

4. Jing Wang, Kaihang Sun, Xinyu Jia, Chang-jun Liu, CO2 hydrogenation to methanol over Rh/In2O3 catalyst, Catalysis Today, DOI: 10.1016/j.cattod.2020.05.020 

5. Xintong Zhou, Chang-Jun Liu, Three-dimensional printing of porous carbon structures with tailorable pore sizes, Catalysis Today, 347 (2020) 2–9 

6. Xinxiang Cao, Tengteng Lyu, Wentao Xie, Arash Mirjalili, Adelaide Bradicich, Ricky Huitema, Ben W.-L. Jang, Jong K. Keum, Karren More, Changjun Liu and Xiaoliang Yan, Preparation and investigation of Pd doped Cu catalysts for selective hydrogenation of acetylene, Frontiers of Chemical Science and Engineering, 14, 522–533, 2020

7. Si Chen, Zeyu Sun, Wenlong Xiang, Chenyang Shen, Zongyuan Wang, Xinyu Jia, Jie Sun* and Chang-Jun Liu*, Plasmonic Wooden Flower for Highly Efficient Solar Vapor Generation, Nano Energy, 76 (2020) 104998 

8. Kaihang Sun, Ning Rui, Zhitao Zhang, Zeyu Sun, Qingfeng Ge and Chang-jun Liu*, A highly active Pt/In2O3 catalyst for CO2 hydrogenation to methanol with enhanced stability, Green Chemistry, 2020, 22, 5059–5066 

9. Donghui Jo, Jingjing Zhao, Jung Cho, Jeong Hwan Lee, Yang Liu, Chang-jun Liu, Xiaodong Zou, and Suk Bong Hong, PST-24: A Zeolite with Varying Intracrystalline Channel Dimensionality, Angew. Chem. Int. Ed. 2020, 59, 17691–17696 

10. Wenlong Xiang, Jie Ren, Si Chen, Chenyang Shen, Yifei Chen, Minhua Zhang, Chang-jun Liu,* The metal-organic framework UiO-66 with missing-linker defects: A highly active catalyst for carbon dioxide cycloaddition, Applied Energy, 2020, 277, 115560 

11. Ning Rui, Feng Zhang, Kaihang Sun, Zongyuan Liu, Wenqian Xu, Eli Stavitski, Sanjaya D. Senanayake, Jose A. Rodriguez, and Chang-Jun Liu, Hydrogenation of CO2 to Methanol on a Aud+–In2O3-x Catalyst, ACS Catal., 2020, 10, 11307−11317 

12. Ning Rui, Kaihang Sun, Chenyang Shen, and Chang-Jun Liu, Density Functional Theoretical Study of Au4/In2O3 Catalyst for CO2 Hydrogenation to Methanol: The Strong Metal-Support Interaction and Its Effect, Journal of CO2 Utilization, 42 (2020) 101313  

13. Wenlong Xiang, Yueping Zhang, Yifei Chen, Chang-jun Liu and Xin Tu, Synthesis, Characterization and Application of Defective Metal-Organic Frameworks: Current Status and Perspectives, Journal of Materials Chemistry A, 2020, 8, 21526–21546 



2019

1. Xiaoshan Zhang, Ning Rui, Xinyu Jia, Xue Hu, Chang-jun Liu, Effect of decomposition of catalyst precursor on Ni/CeO2 activity for CO methanation, Chinese Journal of Catalysis, 2019, 40 (4), 495–503

2. Rui Zhou, Xinxiang Cao, Xinyu Jia, Jiajun Wang, Chang-Jun Liu, On the reactivity of carbon formed from CO CVD over Ni (1 1 1)/TiO2, Chemical Engineering Science, 2019, 194, 22-28

3. Xinyu Jia, Xiaoshan Zhang, Ning Rui, Xue Hu, Chang-Jun Liu, Structural Effect of Ni/ZrO2 Catalyst on CO2 Methanation with Enhanced Activity, Applied Catalysis B: Environmental, 2019, 244, 159-169

4. Xintong Zhou, Zhenxing Liu, Changjun Liu, Three-dimensional printing for the preparation of catalyst and adsorbent, Chemical Industry and Engineering Progress, 2019, 38(1), 516-528

5. Xinyu Jia, Ning Rui, Xiaoshan Zhang, Xue Hu, Chang-Jun Liu, Ni/ZrO2 by dielectric barrier discharge plasma decomposition with improved activity and enhanced coke resistance for CO methanation, Catalysis Today, 2019, 334, 215-222

6. Jiajun Wang, Shyam Kattel, Christopher J. Hawxhurst, Ji Hoon Lee, Brian M. Tackett, Kuan Chang, Ning Rui, Chang-Jun Liu, Jingguang G. Chen, Enhancing activity and reducing cost for electrochemical reduction of CO2 by supporting palladium on metal carbides, Angewandte Chemie International Edition, 2019, 58(19), 6271-6275 

7. Zeyu Sun, Jiajun Wang, Qinglei Wu, Zongyuan Wang, Zhao Wang, Jie Sun, Chang-Jun Liu, Plasmon Based Double-Layer Hydrogel Device for a Highly Efficient Solar Vapor Generation, 2019,29(19), 1901312

8. Xue Hu, Xinyu Jia, Xiaoshan Zhang, Yang Liu, Chang-jun Liu, Improvement in the activity of Ni/ZrO2 by cold plasma decomposition for dry reforming of methane, Catalysis Communications, 2019, 128, 105720

9. Zhenxing Liu, Xintong Zhou, Chang-jun Liu, N-doped porous carbon material prepared via direct ink writing for the removal of methylene blue, Diamond & Related Materials, 2019, 95, 121-126 

10. Wei Wang, Chang-Jun Liu and Wei Wu, Bifunctional catalysts for the hydroisomerization of n-alkanes: the effects of metal–acid balance and textural structure, Catal. Sci. Technol., 2019,9, 4162-4187 

11. Jiajun Wang, Kuan Chang, Zeyu Sun, Ji Hoon Lee, Brian M. Tackett, Cheng Zhang, Jingguang G. Chen, Chang-Jun Liu, A Combined experimental and theoretical study of the accelerated hydrogen evolution kinetics over wide pH range on porous transition metal doped tungsten phosphide electrocatalysts, Applied Catalysis B: Environmental, 2019, 251, 162–167



2018

1. Zhao Wang, Yao Zhang, Erik C. Neyts, Xinxiang Cao, Xiaoshan Zhang, Ben W.-L. Jang, Chang-jun Liu, Catalyst Preparation with Plasmas: How Does It Work? ACS Catal. 2018, 8(3), 2093−2110

2. Yuan Tan, Hua Liu, Xiao Yan Liu, Aiqin Wang, Changjun Liu, Tao Zhang, Effective removal of the protective ligands from Au nanoclusters by ambient pressure nonthermal plasma treatment for CO oxidation, Chinese Journal of Catalysis, 2018, 39 (5) 929–936

3. Ji Hoon Lee, Shyam Kattel, Zhenhua Xie, Brian M. Tackett, Jiajun Wang, Chang-Jun Liu, and Jingguang G. Chen, Understanding the Role of Functional Groups in Polymeric Binder for Electrochemical Carbon Dioxide Reduction on Gold Nanoparticles, Adv. Funct. Mater.2018, 28(45), 1804762

4. Jiajun Wang, Shyam Kattel, Zongyuan Wang, Jingguang G. Chen, Chang-Jun Liu, L‑Phenylalanine-Templated Platinum Catalyst with EnhancedPerformance for Oxygen Reduction Reaction, ACS Applied Materials & Interfaces, 2018, 10 (25), 21321-21327



2017

1. Sheng Sui, Xiaoying Wang, Xintong Zhou, Yuehong Su, Saffa B Riffat and Chang-jun Liu, A comprehensive review of Pt electrocatalysts for oxygen reduction reaction: nanostructure, activity, mechanism and carbon support in PEM fuel cells, Journal of Materials Chemistry A, 2017, 5, 1808-1825

2. Zhuorong Li, Jiao Meng, Wei Wang, Zongyuan Wang, Minyue Li, Tao Chen, Chang-Jun Liu, The Room Temperature Electron Reduction for the Preparation of Silver Nanoparticles on Cotton with High Antimicrobial Activity, Carbohydrate Polymers, 161, 270–276, 2017

3. Wei Wang, Zongyuan Wang, Jiajun Wang, Chuan-Jian Zhong and Chang-Jun Liu, Highly active and stable Pt-Pd alloy catalysts synthesized by room temperature electron reduction for oxygen reduction reaction, Advanced Science, 4(4), 1600486, 2017

4. Xinxiang Cao, Rui Zhou, Ning Rui, Zongyuan Wang, Jiajun Wang, Xintong Zhou, Chang-jun Liu, Synthesis of Co3O4/HZSM-5 catalysts for methane combustion: the effect of preparation methodologies, Catalysis Today, 2017, 297, 219-227

5. Wei Wang, Caleb Anderson, Zongyuan Wang, Wei Wu, Honggang Cui, Chang-Jun Liu, Peptide-Templated Noble Metal Catalysts: Syntheses and Applications, Chemical Science, 8, 3310-3324, 2017

6. Zhou-jun Wang, Ben W.-L. Jang, Chang-jun Liu, Recent Advances in Plasma Catalysis (ISPCEM 2016), Topics in Catalysis, 60(12-14), 797-798, 2017

7. Xintong Zhou, Chang-jun Liu, Three-dimensional Printing for Catalytic Applications: Current Status and Perspectives, Advanced Functional Meaterials, 27(30), 1701134, 2017

8. Chang-jun LiuHow do you explain the importance of CO2 utilization? Greenhouse Gases: Science and Technology, 7 (3) , 397398, 2017

9. Ning Rui, Zongyuan Wang, Kaihang Sun, Jingyun Ye, Qingfeng Ge, Chang-jun LiuCO2 hydrogenation to methanol over Pd/In2O3: effects of Pd and oxygen vacancyApplied Catalysis B: Environmental218, 488497, 2017

10. Jonathan Cole, Yao Zhang, Tianqi Liu, Chang-jun LiuProcess scale-up considerations for non-thermal atmospheric-pressure plasma synthesis of nanoparticles by homogenous nucleationJ. Phys. D: Appl. Phys., 50, 304001, 2017

11. Wenlong Xiang, Yueping Zhang, Hongfei Lin, and Chang-jun Liu, Nanoparticle/Metal–Organic Framework Composites for Catalytic Applications: Current Status and Perspective, Molecules 2017, 22, 2103; doi:10.3390/molecules22122103



2016

1. Wei Wang, Yao Zhang, Zongyuan Wang, Jinmao Yan, Qingfeng Ge, Chang-jun Liu, Revers Water Gas Shift over In2O3/CeO2 Catalysts, Catalysis Today, 259, 402–408, 2016

2. Zongyuan Wang, Minyue Li, Wei Wang, Min Fang, Qidi Sun, Changjun Liu, Floating silver film: A flexible SERS substrate for direct liquid phase detection at gas–liquid interface, Nano Research, 9(4), 1148–1158, 2016

3. Chang-jun Liu, Minyue Li, Jiaqi Wang, Xintong Zhou, Qiuting Guo, Jinmao Yan, Yingzhi Li, Plasma methods for preparing green catalysts: Current status and perspective, Chinese Journal of Catalysis, 37 (3), 340–348, 2016 (in the list of Most Downloaded Articles)

4. Yueping Zhang, You Zhou, Yue Zhao, Chang-jun Liu, Recent Progresses in the Size and Structure Control of MOF Supported Noble Metal Catalysts, Catalysis Today, 263, 61–68, 2016 (in the list of Most Downloaded Articles)

5. Wei Wang, Zongyuan Wang, Manman Yang, Chuan-Jian Zhong, Chang-Jun Liu, Highly active and stable Pt (111) catalysts synthesized by peptide Assisted room temperature electron reduction for oxygen reduction reaction, Nano Energy, 25, 26–33, 2016

6. Minyue Li, Qidi Sun and Chang-jun Liu, Preparation of Floating Au/PVP Film on Water for a Green and Rapid Extraction of Gold Ion, ACS Sustainable Chemistry & Engineering, 4, 3255−3260, 2016

7. Rui Zhou, Ning Rui, Zhigang Fan, Chang-jun Liu, Effect of the structure of Ni/TiO2 catalyst on CO2methanation, International Journal of Hydrogen Energy, 41(47), 22017–22025, 2016

8. Jiajun Wang, Wei Wang, Zongyuan Wang, Jingguang Chen, and Chang-jun Liu, Porous MS2/MO2 (M = W, Mo) Nanorods as Efficient Hydrogen Evolution Reaction Catalysts, ACS Catalysis, 6, 65856590, 2016



2015

1. Zongyuan Wang, Chang-jun Liu, Preparation and Application of Iron Oixde/Graphene Based Composites for Electrochemical Energy Storage and Energy Conversion: Current Status and Perspective, Nano Energy, 11, 277-293, 2015

2. You Zhou, Zongyuan Wang, Chang-jun Liu, Perspective on CO oxidation over Pd-based catalysts, Catalysis Science & Technology, 5, 69-81, 2015

3. Yao Zhang, Wei Wang, Zongyuan Wang, Xintong Zhou, Zhao Wang, Chang-jun Liu, Steam Reforming of Methane over Ni/SiO2 catalyst with Enhanced Coke Resistance at Low Steam to Methane Ratio, Catalysis Today, 256, 130-136, 2015 

4. Yuan Liu, Zhao Wang, Chang-jun Liu, Mechanism of Template Removal for the Synthesis of Molecular Sieves Using Dielectric Barrier Discharge, Catalysis Today, 256, 137–141, 2015

5. Jingyun Ye, Qingfeng Ge, and Chang-jun Liu, Effect of PdIn Bimetallic Particle Formation on CO2 Reduction over the Pd-In/SiO2 Catalyst, Chemical Engineering Science, 135, 193-201, 2015

6. Kaihang Sun, Zhigang Fan, Jingyun Ye, Jinmao Yan, Qingfeng Ge, Yanan Li, Wenjun He, Weimin Yang, Chang-jun Liu, Hydrogenation of CO2 to methanol over In2O3 catalyst, Journal of CO2 Utilization, 12, 1-6, 2015

7. Zhigang Fan, Kaihang Sun, Ning Rui, Binran Zhao, Chang-jun Liu, Improved activity of Ni/MgAl2O4 for CO2methanation by the plasma decomposition, Journal of Energy Chemistry, 24, 655-659, 2015

8. Jiajun Wang, Chang-jun Liu, Preparation of 2D WO3 Nanomaterials with Enhanced Catalytic Activities: Current Status and Perspective, ChemBioEng Reviews, 2, 335-350, 2015

9. Yun-Xiang Pan, Huai-Ping Cong, Yu-Long Men, Sen Xin, Zheng-Qing Sun, Chang-Jun Liu, and Shu-Hong Yu, Peptide  Self-Assembled Biofilm with Unique Electron Transfer Flexibility for Highly Efficient Visible-Light-Driven Photocatalysis, ACS Nano, 2015, 9 (11), 11258–11265



2014 

1. Manman Yang, Zongyuan Wang, Wei Wang, Chang-jun Liu, Synthesis of AuPd alloyed nanoparticles via room-temperature electron reduction with argon glow discharge as electron source, Nanoscale Research Letters, 9:405, 2014 

2. Zongyuan Wang, Jiajun Wang, Minyue Li, Kaihang Sun, Chang-jun Liu,  Three-dimensional Printed Acrylonitrile Butadiene Styrene Framework Coated with Cu-BTC Metal-organic Frameworks for the Removal of Methylene Blue, Scientific Reports, 4, 5939, 2014; doi: 10.1038/srep05939

3. Jiajun Wang, Zongyuan Wang, Chang-jun Liu,  Enhanced Activity for CO Oxidation over WO3 Nanolamella Supported Pt Catalyst. ACS Applied Materials & Interfaces, 6, 12860-12867, 2014

4. Jingyun Ye, Chang-jun Liu, Donghai Mei, Qingfeng Ge,  Methanol synthesis from CO2 hydrogenation over a Pd4/In2O3 model catalyst: A combined DFT and kinetic study. Journal of Catalysis 317, 44–53, 2014(in the list of Most Downloaded Articles in October, 2014)

5. Chang-jun Liu, Yue Zhao, Yingzhi Li, Da-shuai Zhang, Ze Chang, Xian-he Bu, Perspectives on Electron Assisted Reduction for the Preparation of Highly Dispersed Noble Metal Catalysts, ACS Sustainable Chemistry & Engineering, 2(1), 3-13, 2014 (in the list of Most Read Articles in December, 2013)

6. Qidi Sun, Jingyun Ye, Chang-jun~ Liu, Qingfeng Ge, In2O3 as a Promising Catalyst for CO2 Utilization: A Case Study with Reverse Water Gas Shift over In2O3, Greenhouse Gases: Science & Technology, 4(1):140–144, 2014

7. You Zhou, Zhonghua Xiang, Dapeng Cao, Chang-jun Liu, Preparation and Characterization of Covalent Organic Polymer Supported Paladium Catalysts for Oxidation of CO and Benzyl Alcohol, Industrial & Engineering Chemistry Research, 53(4), 1359–1367, 2014

8. Xintong Zhou, Quan Zhang, Chang-jun Liu,Templated synthesis of urchin-like zinc oxide particles by micro-combustion, Frontiers of Chemical Science & Engineering, 8(1), 73–78, 2014

9. You Zhou, Zongyuan Wang, Chang-jun Liu, Perspective on CO oxidation over Pd-based catalysts, Catalysis Science & Technology, 2014, DIO: 10.1039/C4CY00983E 



2013 

1. Xiaoliang Yan, Chang-jun Liu, Effect of the Catalyst Structure on the Formation of Carbon Nanotubes over Ni/MgO Catalyst, Diamond and Related Materials, 31, 50–57, 2013 (once in the list most downloaded papers)

2. Xiaoliang Yan, Yuan Liu, Binran Zhao, Zhao Wang, Yong Wang, Chang-jun Liu, Methanation over Ni/SiO2: Effect of the catalyst preparation methodologies, International Journal of Hydrogen Energy, 38(5), 2283-2291, 2013 

3. You Zhou, Zhonghua Xiang, Dapeng Cao, and Chang-Jun Liu, Covalent Organic Polymer Supported Palladium Catalyst for CO Oxidation, Chemical Communications, 2013, 49, 5633-5635 

4. Qiuting Guo, Patrick With, Yuan Liu, Roger Gläser and Chang-jun Liu, Carbon Template Removal by Dielectric-Barrier Discharge Plasma for the Preparation of Zirconia, Catalysis Today, 211, 156–161, 2013 

5. Xiaoliang Yan, Yuan Liu, Binran Zhao, Yong Wang and Chang-jun Liu, Enhanced sulfur resistance of Ni/SiO2 catalyst for methanation via the plasma decomposition of nickel precursor, Phys. Chem. Chem. Phys., 15(29), 12132-12138, 2013 

6. Yue Zhao, Chongli Zhong and Chang-Jun Liu, Enhanced CO oxidation over thermal treated Ag/Cu-BTC, Catalysis Communications, 38, 74-76, 2013 

7. Jingyun Ye, Chang-jun Liu, Donghai Mei, Qingfeng Ge, Active Oxygen Vacancy Site for Methanol Synthesis from CO2Hydrogenation on In2O3(110): A DFT Study. ACS Catalysis, 3(6),1296-1306, 2013 

 8. Binran Zhao, Xiaoliang Yan, You Zhou, Chang-jun Liu, Effect of Catalyst Structure on Growth and Reactivity of Carbon Nanofibers over Ni/MgAl2O4, Industrial & Engineering Chemistry Research, 52 (24), 8182–8188, 2013 

9. Chunmei Zhou, Hong Chen, Yibo Yan, Xinli Jia, Chang-jun Liu, Yanhui Yang, Argon plasma reduced Pt nanocatalysts supported on carbon nanotube for aqueous phase benzyl alcohol oxidation, Catalysis Today, 211, 104–108, 2013 

10. Jinmao Yan, Yunxiang Pan, Andrew G. Cheetham, Yi-An Lin, Wei Wang, Honggang Cui, Chang-Jun Liu, One-Step Fabrication of Self-assembled Peptide Thin Films with Highly Dispersed Noble Metal Nanoparticles, Langmuir, 29(52), 16051-16057, 2013 (in the TOP 5 Most Read Articles of the journal in January, 2014)



2012 

1. Qi-di Sun, Bin Yu, Chang-jun Liu, Characterization of ZnO Nanotube Fabricated by the Plasma Decomposition of Zn(OH)2 via Dielectric Barrier Discharge, Plasma Chemistry Plasma Processing, 32(2), 201-209, 2012 

2. Xueyan Guo, Yanli Sun, Yue Yu, Xinli Zhu and Chang-jun Liu, Carbon Formation and Steam Reforming of Methane on Silica Supported Nickel Catalysts, Catalysis Communications, 19, 61–65, 2012 

3. Yongbing Xie, Zhehao Wei, Chang-jun Liu, Lan Cui and Chao Wang, Morphologic Evolution of Au Nanocrystals Grown in Ionic Liquid by Plasma Reduction, Journal of Colloid & Interface Science, 374(1), 40–44, 2012 

4. Chunmei Zhou, Xin Wang, Xinli Jia, Houpeng Wang, Chang-jun Liu, Yanhui Yang, Nanoporous platinum grown on nickel foam by facile plasma reduction with enhanced electro-catalytic performance, Electrochemistry Communications, 18, 33–36,2012 

5. Yuanting Chen; Houpeng Wang; Chang-jun Liu; Zhiyuan Zeng; Hua Zhang; Chunmei Zhou; Xinli Jia; Yanhui Yang, Formation of monometallic Au, Pd and bimetallic Au-Pd nanoparticles confined in mesopores via Ar glow discharge plasma reduction and their catalytic applications in aerobic oxidation of benzyl alcohol, Journal of Catalysis, 289, 105-117, 2012 

6. Yue Yu, Yingzhi Li, Yunxiang Pan and Chang-jun Liu, Fabrication of palladium/graphene oxide composite by plasma reduction at room temperature, Nanoscale Research Letters 7:234, 2012

7. Jingyun Ye, Changjun Liu, and Qingfeng Ge, DFT Study of CO2 Adsorption and Hydrogenation on the In2O3 Surface, J. Phys. Chem. C, 116 (14), 7817–7825, 2012 

8. Chang-jun Liu, Do we have a rapid solution for CO2 utilization? A perspective from China, Greenhouse Gases: Science and Technology, 2(2), 75-76, 2012 

9. Binran Zhao, Yun-xiang Pan and Chang-jun Liu, The Promotion Effect of CeO2 on CO2 Adsorption and Hydrogenation over Ga2O3, Catalysis Today, 194(1), 60–64, 2012 

10. Wael Mamdouh, Yingzhi Li, Sherif M. Shawky, Hassan M. E. Azzazy and Chang-Jun Liu, Influence of “Glow Discharge Plasma” as an External Stimulus on the Self-Assembly, Morphology and Binding Affinity of Gold Nanoparticle-Streptavidin Conjugates, International Journal of Molecular Sciences, 13(6), 6534-6547, 2012 

11. Yingzhi Li, Yue Yu, Jian-guo Wang, Jie Song, Qiang Li, Mingdong Dong and Chang-jun Liu, CO Oxidation over Graphene Supported Palladium Catalyst, Applied Catalysis B: Environmental, 125, 189-196, 2012  (in the Most Downloaded Papers in September, 2012)

12. Yun-xiang Pan, Chang-jun Liu, Shuai Zhang, Yue Yu and Mingdong Dong, 2D Oriented Self-Assembly of Peptide Induced by Hydrated Electrons, Chemistry-A European Journal, 18 (46), 14614–14617, 2012 

13. Jingyun Ye, Changjun Liu and Qingfeng Ge, A DFT study of methanol dehydrogenation on the PdIn(110) surface, Phys. Chem. Chem. Phys., 14, 16660-16667, 2012 



2011 

1. Zhehao Wei, Chang-jun Liu, Synthesis of Monodisperse Gold Nanoparticles in Ionic Liquid by Applying Room Temperature Plasma, Materials Letters, 65(2), 353–355, 2011 

2. Chang-jun Liu, Jingyun Ye, Jiaojun Jiang and Yunxiang Pan, Progresses in the Preparation of Coke Resistant Ni-based Catalyst for Steam and CO2 Reforming of Methane, ChemCatChem, 3(3), 529–541, 2011 (in the 9th of the 25 Most Cited Articles published in the journal in 2011 and 2012)

3. Jing-yun Ye and Chang-jun Liu, Cu3(BTC)2: CO oxidation over MOF based catalysts, Chemical Communications, 47(7), 2167-2169, 2011 

4. You Zhou, Chang-jun Liu, Amorphization of metal-organic framework MOF-5 by electrical discharge, Plasma Chemistry Plasma Processing, 31(3), 499-506, 2011 

5. De Chen and Chang-Jun Liu, A Current Perspective on Catalysis for New Energy Technologies ChemCatChem, 3(3), 423–425, 2011 

6. Yun-xiang Pan, Donghai Mei, Chang-jun Liu, and Qingfeng Ge, Hydrogen Adsorption on Ga2O3 Surface: A Combined Experimental and Computational Study, J. Phys. Chem. C, 115 (20), 10140–10146, 2011 

7. Houpeng Wang and Chang-jun Liu, Preparation and Characterization of SBA-15 supported Pd catalyst for CO oxidation, Applied Catalysis B: Environmental 106, 672– 680, 2011 



2010 

1. Ji-Jun Zou and Chang-jun Liu, Utilization of Carbon Dioxide through Nonthermal Plasma Approaches, in Carbon Dioxide as Chemical Feedstock, ed. Michele Aresta, pp.267-290, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, 2010 

2. Xi Liang, Zhou-jun Wang, Chang-jun Liu, Size-Controlled Synthesis of Colloidal Gold Nanoparticles at Room Temperature Under the Influence of Glow Discharge, Nanoscale Research Letters, 5(1), 124-129, 2010 

3. Ben W.-L. Jang, Roger Glaeser, Mingdong Dong, Chang-Jun Liu, Fuels of the future, ENERGY & ENVIRONMENTAL SCIENCE, 3(3), 253-253, 2010 

 4. Yuan Liu, Yunxiang Pan, Zhou-Jun Wang, Pingyu Kuai, Chang-Jun Liu, Facile and fast template removal from mesoporous MCM-41 molecular sieve using dielectric-barrier discharge plasma, Catalysis Communications, 11(6), 551-554, 2010 

5. Yuan Liu, Yun-xiang Pan, Pingyu Kuai and Chang-jun Liu, Template Removal from ZSM-5 Zeolite Using Dielectric-Barrier Discharge Plasma, Catalysis Letters, 135(3/4), 241-245, 2010 

6. Yunxiang Pan; Chang-jun Liu; Qingfeng Ge, Effect of Surface Hydroxyls on Selective CO2 Hydrogenation over Ni4/γ-Al2O3: A Density Functional Theory Study, Journal of Catalysis, 272 (2), 227-234, 2010 

7. Yun-xiang Pan, Chang-jun Liu, Donghai Mei , Qinfeng Ge, Effects of Hydration and Oxygen Vacancy on CO2 Adsorption and Activation on beta-Ga2O3(100), Langmuir, 26(8), 5551-5558, 2010 

8. Chen KangCheng, Pan YunXiang and Liu Chang-Jun. Effect of reduction method on the performance of Pd catalysts supported on activated carbon for the selective oxidation of glucose. Science China:Chemistry. 53(7), 1598–1602, 2010 

9. Pan, Y.X.; Kuai, P.Y.; Liu, Y.; Ge, Q.F.; Liu, C.-J. Promotion effects of Ga2O3 on CO2 adsorption and conversion over a SiO2-supported Ni catalyst. Energy Environ. Sci. 2010, 3, 1322-1325. 

10. Chang-jun Liu, Uwe Burghaus, Flemming Besenbacher, and Zhong Lin Wang, Preparation and Characterization of Nanomaterials for Sustainable Energy Production, ACS Nano, 4(10), 5517–5526, 2010 ( in the list of Most Read articles in December, 2010) 

11. Chang-jun Liu, Peng Shi, Jiaojun Jiang, Pingyu Kuai, Xinli Zhu,Yunxiang Pan and Yueping Zhang, Development of Coke Resistant Ni Catalysts for CO2 Reforming of Methane via Glow Discharge Plasma Treatment, in Advances in CO2 Conversion and Utilization, ACS Symposium Series 1056, Chapter 11, 175-180, 2010. 



2009 

1. Yan Li, Pingyu Kuai, Peipei Huo and Chang-jun Liu, Fabrication of CuO Nanofibers via the Plasma Decomposition of Cu(OH)2, Mater. Lett., 63(2),188-190,2009 

2. Zhao Wang, Chang-Jun Liu, Guoliang Zhang. Size Control of Carbon Black-Supported Platinum Nanoparticles via Novel Plasma Reduction. Catalysis Communications, 10, 959-962, 2009 

3. Zhou-jun Wang, Yuan Liu, Peng Shi, Chang-jun Liu, Yan Liu. Al-MCM-41 supported palladium catalyst for methane combustion: Effect of the preparation methodologies. Appl. Catal. B, 90(3-4), 570-577,2009 

4. Yun-xiang Pan, Chang-jun Liu, Tomasz S. Wiltowski, Qingfeng Ge, CO2 adsorption and activation over γ-Al2O3-supported transition metal dimers: A density functional study, Catalysis Today, 147(2), 68-76, 2009 

5. You Han, Chang-jun Liu, Qingfeng Ge. Effect of Pt Clusters on Methanol Adsorption and Dissociation over Perfect and Defective Anatase TiO2(101) Surface. J. Phys. Chem. C, 113 (48), 20674–20682, 2009 



2008 

1. Yong-Bing Xie, Chang-Jun Liu, Stability and Application of Ionic Liquids under the Influence of Glow Discharge Plasmas, Plasma Processes and Polymer, 5(3), 239-245, 2008 

2. Xinli Zhu, Yongbing Xie, Chang-jun Liu, Yue-ping Zhang, Stability of Pt particles on ZrO2 support during partial oxidation of methane: DRIFT studies of adsorbed CO, J. Mol. Catal. A, 282(1/2), 67-73, 2008 

3. Xinli Zhu, Peipei Huo, Yue-ping Zhang, Dang-guo Cheng and Chang-jun LiuStructure and reactivity of plasma treated Ni/Al2O3 catalyst for CO2 reforming of methane, Appl. Catal. B, 81(1-2), 132-140, 2008 (once in the list most downloaded papers) 

4. Yu Zhao, Yun-xiang Pan, Yongbing Xie and Chang-jun Liu. Carbon Dioxide Reforming of Methane over Glow Discharge Plasma Reduced Ir/Al2O3 catalyst. Catalysis Communications, 9, 1558-1562, 2008 

5. Xinli Zhu, Kailu Yu, Dangguo Cheng, Yueping Zhang, Qing Xia, Changjun Liu. Modification of acidity of Mo-Fe/HZSM-5 zeolite via argon plasma treatment. Front. Chem. Eng. China, 2(1), 55-58, 2008 

6. Yun-Xiang Pan, Chang-Jun Liu, Peng Shi, Preparation and Characterization of Coke Resistant Ni/SiO2 Catalyst for Carbon Dioxide Reforming of Methane, Journal of Power Sources, 176(1), 46-53, 2008 

7. Yun-xiang Pan, Chang-jun Liu, Lan Cui, Temperature-programmed Studies of Coke Resistant Ni Catalyst for Carbon Dioxide Reforming of Methane, Catal. Lett., 123(1-2), 96-101, 2008 

8. Xinli Zhu, Dangguo Cheng and Pingyu Kuai, Catalytic decomposition of methane over Ni/Al2O3 catalysts: Effect of plasma treatment on carbon formation, Energy & Fuels, 22(3), 1480-1484, 2008 

9. Yun-xiang Pan, Chang-jun Liu, Peng Shi, The cleavage of the methane C-H bond over PdO/H-BEA: A density functional theory study, Applied Surface Science, 254 (17), 5587-5593, 2008 

10. Ya-nan Li, Yong-bing Xie and Chang-jun Liu, Enhanced activity of bimetallic Pd-based catalysts for methane combustion, Catal. Lett., 125(1-2), 130-133, 2008 Yun-xiang Pan, Chang-jun Liu, Qingfeng Ge, Adsorption and Protonation of CO2 on Partially Hydroxylated γ-Al2O3 Surfaces: A Density Functional Theory Study, Langmuir, 24(21), 12410-12419, 2008 

11. Xi Liang, Chang-jun Liu and Pingyu Kuai, Selective oxidation of glucose to gluconic acid over argon plasma reduced Pd/Al2O3, Green Chemistry,10(12),1318-1322, 2008 

12. Zhou-jun Wang, Yongbing Xie, Chang-jun Liu, Synthesis and Characterization of Noble Metal (Pd, Pt, Au, Ag) Nanostructured Materials Confined in the Channels of Mesoporous SBA-15, Journal of Physical Chemistry C, 112 (50), 19818–19824, 2008 



2007 

1. Yun-Xiang Pan, You Han and Chang-Jun Liu, Pathways for Steam Reforming of Dimethyl Ether under Cold Plasma Conditions: A DFT Study, Fuel, 86, 2300-2307, 2007 

2. Ji-Jun Zou, Yue-ping Zhang and Chang-Jun Liu, Hydrogen Production from Partial Oxidation of Dimethyl Ether Using Corona Discharge Plasma, Intern. J. Hydrogen Energy, 32, 958-964, 2007 

 

3. Ji-Jun Zou, Yue-ping Zhang, Chang-Jun Liu, Hydrogen production from dimethyl ether using corona discharge plasma, Journal of Power Sources, 163, 653-657, 2007 

4. Yu Zhao, Yun-xiang Pan, Lan Cui and Chang-jun Liu, Carbon nanotubes formation over plasma reduced Pd/HZSM-5, Diamond and Related Materials, 16, 229-235, 2007 

5. Yun-xiang Pan and Chang-jun Liu, DFT study on pathways of partial oxidation of DME under cold plasma conditions, Fuel Processing Technology, 88, 967-976, 2007 

6. Zhou-jun Wang, Yu Zhao, Lan Cui, Haiyan Du, Pei Yao and Chang-jun Liu, CO2 reforming of methane over argon plasma reduced Rh/Al2O3 catalyst: A case study of alternative catalyst reduction via non-hydrogen plasmas, Green Chemistry, 2007, 9, 554-559 

7. Dangguo Cheng, Kazu Okumura, Yongbin Xie and Chang-jun Liu, Stability Test and EXAFS Characterization of Plasma Prepared Pd/HZSM-5 Catalyst for Methane Combustion, Applied Surface Science, 254(5), 1506-1510, 2007 

8. Xinli Zhu,Yue-ping Zhang and Chang-jun Liu, CO adsorbed infrared spectroscopy study of Ni/Al2O3 catalyst for CO2 reforming of methane, Catal. Lett., 2007, 118(3/4), 306-312 

9. Chang-jun Liu, Ben WL Jang, Roger Glaeser, Green chemistry for fuel synthesis and processing Green Chemistry, 9 (6), 525-525, 2007 

10. You Han, Chang-jun Liu and Qingfeng Ge, Effect of surface oxygen vacancy on Pt cluster adsorption and growth on the defective anatase TiO2(101) surface, J. Phys. Chem. C., 111(44); 16397-16404, 2007 

11. Ji-jun Zou, Fei He, Lan Cui, Hai-yan Du, High efficient Pt/TiO2 photocatalyst for hydrogen generation prepared by a cold plasma method, Intern. J. Hydrogen Energy, 32(12), 1762-1770, 2007 

12. Yingwei Li, Ralph T. Yang, Chang-jun Liu, Zhao Wang, Hydrogen storage on carbon doped with platinum nanoparticles using plasma reduction, Ind. Eng. Chem. Res., 46(24); 8277-8281, 2007 



2006 

1. Kai-lu Yu, Ji-jun Zou, Yu-heng Ben, Yue-ping Zhang, Chang-jun Liu, Synthesis of NiO-embedded carbon nanotubes using corona discharge enhanced chemical vapor deposition, Diamond and Related Materials,15, 1217-1222, 2006 

2. Xinli Zhu, Kailu Yu, Yue-Ping Zhang, Qing Xia and Chang-jun Liu, Thermogravimetric Analysis of the Coke Formation on the Plasma Treated Mo-Fe/HZSM-5 Catalyst for Non-oxidative Aromatization of Methane, React. Kinet. Catal. Lett., 87(1), 93-99, 2006 

3. Chang-jun Liu, Jijun Zou, Kailu Yu, Dangguo Cheng, You Han, Jason Zhan, Chalita Ratanatawanate and Ben W.-L. Jang, Plasma Application for More Environmentally-friendly Catalyst Preparation, Pure and Applied Chemistry, 78(6), 1227-1238, 2006 

4. Jian-guo Wang and Chang-jun Liu, Density Functional Theory Study of Methane Activation over PdO/HZSM-5. Journal of Molecular Catalysis A: Chemical, 247(1/2), 199-205, 2006 

5. Ji-Jun Zou, Chang-Jun Liu, and Yue-Ping Zhang, Control of the Metal-Support Interface of NiO-Loaded Photocatalysts via Cold Plasma Treatment, Langmuir, 22(5), 2334-2339, 2006 

6. Dang-guo Cheng, Xinli Zhu, Yuheng Ben, Fei He, Lan Cui, and Chang-jun Liu, Carbon dioxide reforming of methane over Ni/Al2O3 treated with glow discharge plasma, Catalysis Today, 115(1-4), 205-210, 2006 

7. You Han, Chang-jun Liu, Qingfeng Ge, Interaction of Pt Clusters with TiO2 Anatase (101) Surface: A First Principles Study, J. Phys. Chem. B, 110(14), 7463-7472, 2006 

8. You Han, Jian-guo Wang, Dang-guo Cheng and Chang-jun Liu, Density Functional Theory Study of Methanol Conversion via Cold Plasmas, Ind. Eng. Chem. Res., 45(10), 3460-3467, 2006 

9. Ji-Jun Zou and Chang-Jun Liu Yue-ping Zhang, Steam Reforming of Dimethyl Ether by AC Corona Discharge Plasma with Various Waveforms, Energy Fuels, 20 (4): 1674-1679, 2006 

10. Xinli Zhu, Pei-pei Huo, Yue-ping Zhang and Chang-jun Liu. Characterization of Argon Glow Discharge Plasma Reduced Pt/Al2O3 Catalyst, Ind. Eng. Chem. Res. 45(25): 8604-8609, 2006 

11. Ji-Jun Zou, Yue-ping Zhang, and Chang-Jun Liu, Reduction of Supported Noble Metal Ions Using Glow Discharge Plasma, Langmuir, 22(26),11388-11394,2006 

 


2005 

1. Yu Wang,Chang-jun Liu,Yue-ping Zhang, Plasma methane conversion in the presence of dimethyl ether using dielectric-barrier discharge, Energy Fuels, 19 (3): 877-881, 2005 

2. Ji-jun Zou, Chao Chen, Chang-jun Liu, Yue-ping Zhang, You Han, Lan Cui, Pt nanoparticles on TiO2 with novel metal-semiconductor interface as highly efficient photocatalyst, Materials Letters, 59(27), 3437-3440, 2005 



2004 

1. Jian-guo Wang, Chang-jun Liu, Zhiping Fang, Yue Liu and Zhongqi Han, A DFT Study of Structural and Electronic Properties of PdO/HZSM-5, J. Phys. Chem. B., 108(5), 1653-1659, 2004 

2. Yue-ping Zhang, Pei-sheng Ma, Xinli Zhu, Chang-jun Liu and Yutian Shen, A Novel Plasma-treated Pt/NaZSM-5 Catalyst for NO reduction by methane, Catalysis Communications, 5, 35-39, 2004 

3. Chang-jun Liu, Kailu Yu, Xinli Zhu, Yue-ping Zhang, Fei He and Baldur Eliasson, Characterization of Plasma Treated Pd/HZSM-5 Catalyst for Methane Combustion, Appl. Catal. B, 47(2), 95-100, 2004 

4. Ji-Jun Zou, Chang-Jun Liu, Baldur Eliasson; Modification of Starch by Glow Discharge Plasma; Carbohydrate Polymers, 55(1), 23-26, 2004 

5. Jian-guo Wang, Chang-jun Liu and Baldur Eliassion, DFT Study of Synthesis of oxygenates and higher hydrocarbons from methane and carbon dioxide using cold plasmas, Energy and Fuels, 18(1), 148-153, 2004 

6. Jian-guo Wang, Chang-jun Liu, Yue-ping Zhang, Kai-lu Yu, Xin-li Zhu and Fei He, Partial Oxidation of Methane to Syngas over Glow Discharge Plasma Treated Ni-Fe/Al2O3 Catalyst, Catal. Today, 89(1-2), 183-191, 2004 

7. Ben Jang, Thomas Hammer and Chang-jun Liu, Editorial, Catal. Today, 89(1-2), 1-2, 2004 

8. Kai-lu Yu, Chang-jun Liu, Yue-ping Zhang, Fei He, Xin-li Zhu and Baldur Eliasson, The Preparation and Characterization of Highly Dispersed PdO over Alumina for Low-temperature Combustion of Methane, Plasma Chemistry Plasma Processing, 24(3), 393-403, 2004 

9. Hui-qing Li, Ji-jun Zou, Yue-ping Zhang, and Chang-jun Liu, Novel Plasma Methanol Decomposition to Hydrogen Using Corona Discharges, Chemistry Letters, 33(6), 744-745, 2004 

10. Chang-jun Liu, Thomas Hammer and Richard Mallinson, Editorial, Catal. Today, 98(4), vii-viii, 2004 

11. Ji-Jun Zou, Chang-Jun Liu, Kai-Lu Yu, Dang-guo Cheng, Yue-ping Zhang, Fei He, Hai-yan Du, Lan Cui, Highly efficient Pt/TiO2 photocatalyst prepared by plasma-enhanced impregnation method, Chemical Physics Letters, 400, 520-523, 2004 



2003 

1. Jian-guo Wang, Chang-jun Liu, Yue-ping Zhang, and Baldur Eliasson, A DFT study of synthesis of acetic acid from methane and carbon dioxide, Chemical Physics Letters, 368(3/4), 313-318, 2003 

2. Ji-Jun Zou, Yue-ping Zhang, Chang-Jun Liu, Yang Li, and Baldur Eliasson, Starch Enhanced Synthesis of Oxygenates from Methane and Carbon Dioxide Using Dielectric-barrier Discharges, Plasma Chemistry Plasma Processing, 23(1), 69-82, 2003 

3. Yue-ping Zhang, Yang Li, Chang-jun Liu, and Baldur Eliasson, Influence of Electrode Configuration on Direct Methane Conversion with CO2 as a Co-reactant Using Dielectric-barrier Discharges, ACS Symposium Series, 852, 100-115, 2003 

4. Yue-ping Zhang, Yang Li, Yu Wang, Chang-jun Liu, and Baldur Eliasson, Plasma methane conversion in the presence of carbon dioxide using dielectric-barrier discharges, Fuel Processing Technology, 83(1-3), 101-109, 2003 

5. Chang-jun Liu, Xin-bin Ma, Fei He, Kai-lu Yu, Shen Han, Qing Xia and G.P. Vissokov, Preparation of ultra-fine Al2O3 using plasma jet and its application for synthesis of dimethyl carbonate, Chemical Engineering Communications, 190(10), 1371-1378, 2003 

6. Chang-jun Liu, Kailu Yu, Yue-ping Zhang, Xinli Zhu, Fei He and Baldur Eliasson, Remarkable improvement in the activity and stability of Pd/HZSM-5 catalyst for methane combustion, Catalysis Communications, 4(7), 303-307, 2003 

7. Chang-jun Liu, Richard G. Mallinson and Michele Aresta, Preface of ACS Symposium Series 852: Utilization of Greenhouse Gases, Published by American Chemical Society, 2003 



2002 

1. Chang-jun Liu, Jia-xin Wang, Baldur Eliasson, Bingzhang Xue and Kai-lu Yu, Floating double probe method characteristics of non-thermal plasmas in the presence of zeolite, J. Electrostatics, 54(2), 149~158, 2002 

2. Yang Li, Chang-Jun Liu, Baldur Eliasson and Yu Wang, Synthesis of Oxygenates and Higher Hydrocarbons Directly from Methane and Carbon Dioxide Using Dielectric-Barrier Discharges: Product Distribution, Energy & Fuels, 16(4), 864-870, 2002 

3. Tao Jiang, Yang Li, Chang-jun Liu, Gen-hui Xu, Baldur Eliasson and Bingzhang Xue, Plasma Methane Conversion Using Dielectric-barrier Discharges with Zeolite A, Catalysis Today, 72, 229~235, 2002 

4. Chang-jun Liu, G.P. Vissokov and Ben Jang, On the plasma chemical-preparation of catalyst, Catalysis Today, 72(3/4),173~184, 2002 



2001 

1. Chang-jun Liu, Bingzhang Xue, Baldur Eliasson, Fei He, Yang Li and Gen-hui Xu, Methane conversion to higher hydrocarbons in the presence of carbon dioxide using dielectric-barrier discharge plasmas, Plasma Chemistry & Plasma Processing, 21(3), 301-310, 2001 

2. Chang-jun Liu, Yang Li, Yue-ping Zhang, Yu Wang, Jijun Zou, Baldur Eliasson and Bingzhang Xue, Production of acetic acid directly from methane and carbon dioxide using dielectric-barrier discharges, Chem. Lett., No. 12, 1304~1305, 2001 

3. Tao Jiang, Chang-jun Liu and Guo-liang FanConversion of Dimethyl Ether to Diesel Fuel additives via Dielectric Barrier Discharges, Chemistry Letters, No.4, 322-323,2001 

4. Tao Jiang, Chang-jun Liu, Ming-fa Rao, Chun-de Yao and Guo-liang Fan, A novel synthesis of diesel fuel additives from dimethyl ether using dielectric barrier discharges, Fuel Processing Technology, 73(2), 143-152, 2001 

5. Yang Li, Gen-hui Xu, Chang-jun Liu, Baldur Eliasson and Bingzhang Xue, Co-generation of syngas and higher hydrocarbons from CO2 and CH4 using dielectric-barrier discharge: Effect of electrode materials, Energy & Fuels, 15(2), 299-302, 2001 



2000 

1. B. Eliasson, C.-J. Liu and U. Kogelschatz, Direct Conversion of Methane and Carbon Dioxide to Higher Hydrocarbons Using Catalytic Dielectric-Barrier Discharges with Zeolites, Ind. Eng. Chem. Res., 39(5), 1221-1227, 2000 

2. Yue-ping Zhang, Chang-jun Liu and Min-hua Zhang, Carbon black and carbon nano-tubes produced from acetylene using non-thermal plasmas at atmospheric pressure, Chemistry Letters, No.10, pp. 1204~1205, 2000 



1999 

1. Liu, C.-J., R.G. Mallinson and L.L. Lobban; "Comparative Investigation on plasma catalytic methane conversion to higher hydrocarbons over Zeolites," Applied Catalysis, A., 178(1), 17-27,1999 

2. Liu, C.-J., G.-H. Xu and T. Wang; “Non-thermal plasma approaches in CO2 utilization,” Fuel Processing Technology, 58(2/3), 119-134, 1999 1998 1.Liu, C.-J., R.G. Mallinson and L.L. Lobban; "Non-oxidative Methane Conversion to Acetylene over Zeolites in a Low-temperature Plasma," J. Catalysis, 179(1), 326-334, 



1998 

1. Liu, C.-J., R.G. Mallinson and L.L. Lobban; "Non-oxidative Methane Conversion to Acetylene over Zeolites in a Low-temperature Plasma," J. Catalysis, 179(1), 326-334, 1998



1997 

1. Liu, C.-J., A. Marafee, R.G. Mallinson and L.L. Lobban; “Methane conversion to higher hydrocarbons over charged metal oxide catalysts with OH groups,” Applied Catalysis A, 164, 21-33, 1997 

2. Marafee, A., C.-J. Liu, G.-H. Xu, R.G. Mallinson and L.L. Lobban; “An experimental study on the oxidative coupling of methane in a dc corona discharge reactor over Sr/La2O3,” Ind. Eng. Chem. Res., 36(3), 632-637, 1997 



1996 

1. Liu, C.-J., A. Marafee, G.-H. Xu, R.G. Mallinson and L.L. Lobban; “The oxidative coupling of methane with ac and dc corona discharge,” Ind. Eng. Chem. Res., 35(10), 3295- 3301, 1996 

2. Liu, C.-J.; “The oxidative synthesis of higher hydrocarbons from CH4 and CO2 by streamer discharge,” Chemistry Letters, 25, 749-750, 1996 

3. Liu, C.-J. and Chen, H.-F., “Visualization and numerical prediction of double diffusive convection characteristics in a static crystallizer”, Int. Comm. with Heat & Mass Transfer, 23(4), 543- 553, 1996