研究领域

精细化工原料及中间体的绿色制造和新能源转化用催化新材料的功能分子创制

近期论文

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发表论文 (IF from JCR2014, published on 2015.6.18) (38.55 RG Score in Researchgate, 2016.5) ResearcherID: J-5669-2015; Scopus Author ID 8702446400; ORCID: 0000-0001-6529-5020.

2016年
[91] Weizuo Li, Zhongkui Zhao*, Xinwen Guo and Guiru Wang, Employing Nickel-Containing Supramolecular Framework as Ni Precursor for Synthesizing Robust Supported Ni Catalyst for Dry Reforming of Methane, ChemCatChem, 2016, 8, xxx-xxx.

[90] Zhongkui Zhao *, Jinfeng Ran, Yongle Guo, Boyuan Miao, Guiru Wang, Tuning of the textural features and acidic properties of sulfated mesoporous lanthana‐zirconia solid acid catalysts for alkenylation of diverse aromatics to their corresponding α‐arylstyrenes, Chinese Journal of Catalysis 37 (2016) 0–0.

[89] Zhongkui Zhao *, Guifang Ge, Weizuo Li, Xinwen Guo, Guiru Wang, Modulating the microstructure and surface chemistry of

carbocatalysts for oxidative and direct dehydrogenation: A review, Chinese Journal of Catalysis 37 (2016) 644–670. (Highlighted as Cover article)

[88] Zhongkui Zhao,* Panpan Ren and Weizuo Li, Supported Ni catalyst on a natural halloysite derived silica–alumina composite oxide with unexpected coke-resistant stability for steam-CO2 dual reforming of methane, RSC Adv., 2016, 6, 49487–49496.

[87] Zhongkui Zhao,*a Xianhui Wang,a Yanhua Jiao,b Boyuan Miao,a Xinwen Guoa, and Guiru Wanga, Facile, low-cost, and scalable fabrication of particle size and pore structure tuneable monodisperse mesoporous silica nanospheres as supports for advanced solid acid catalysts, RSC Adv., 2016, 6, 9072–9081.

[86] Zhongkui Zhao*, Jinfeng Ran, Yanhua Jiao, Weizuo Li, Boyuan Miao, Modified natural halloysite nanotube solely employed as an efficient and low-cost solid acid catalyst for alpha-arylstyrenes production via direct alkenylation. Appl. Catal. A: Gen., 2016, 513, 1-8. (IF=3.942)

2015年

[85] Weizuo Li, Zhongkui Zhao*, Panpan Ren, and Guiru Wang, Effect of molybdenum carbide concentration on the Ni/ZrO2 catalysts for steam-CO2 bi-reforming of methane, RSC Advances, 2015, 5, 100865-100872. (IF=3.840)

[84] Zhongkui Zhao,* Weizuo Li, Yitao Dai, Guifang Ge, Xinwen Guo and Guiru Wang, Carbon Nitride Encapsulated Nanodiamond Hybrid with Improved Catalytic Performance for Clean and Energy-Saving Styrene Production via Direct Dehydrogenation of Ethylbenzene, ACS Sustainable Chemistry & Engineering, 2015, 3, 3355-3364 (IF=4.642)

[83] Weizuo Li, Zhongkui Zhao*, Fanshu Ding, Xinwen Guo, and Guiru Wang, Syngas Production via Steam-CO2 Dual Reforming of Methane over LA-Ni/ZrO2 Catalyst Prepared by L-Arginine Ligand-Assisted Strategy: Enhanced Activity and Stability, ACS Sustainable Chemistry & Engineering, 2015, 3, 3461-3476. (IF=4.642)

[82] Zhongkui Zhao*, Xianhui Wang, Supported phosphotungstic acid catalyst on modified activated carbon for Friedel-Crafts alkenylation of diverse aromatics to their corresponding α-arylstyrenes, Appl. Catal. A: Gen., 2015, 503, 103-110. (IF=3.942)

[81] Zhongkui Zhao,* Yitao Dai, Guifang Ge, Xinwen Guo and Guiru Wang, Facile simultaneous defect producing and O,N-doping of carbon nanotube with unexpected catalytic performance for clean and energy-saving production of styrene, Green Chem., 2015, 17(7), 3723-3727. (IF=8.020). (highlighted as back cover)

[80] Zhongkui Zhao,* Yitao Dai, Guifang Ge, Xinwen Guo and Guiru Wang, Nitrogen-doped carbon nanotube by a facile two-step approach as an efficient catalyst for ethylbenzene direct dehydrogenation, Phys. Chem. Chem. Phys., 2015, 17(29), 18895-18899. (IF=4.493). (highlighted as back cover)

[79] Zhongkui Zhao*, Yitao Dai, Guifang Ge, Xinwen Guo and Guiru Wang, Increased active sites and their accessibility of N-doped carbon nanotube carbocatalyst with remarkably enhanced catalytic performance in direct dehydrogenation of ethylbenzene, RSC Adv., 2015, 5, 53095-53099. (IF=3.840)

[78] Zhongkui Zhao*, Yitao Dai, Guifang Ge, and Guiru Wang, Efficient Tuning of Microstructure and Surface Chemistry of Nanocarbon Catalysts for Ethylbenzene Direct Dehydrogenation, AIChE Journal, 2015, 61(8), 2543-2561. (IF=2.748, Top journal in Chem Eng)

[77] Zhongkui Zhao*, Yitao Dai, Guifang Ge, and Guiru Wang. The explosive decomposition of melamine-cyanuric acid supramolecular assembly for fabricating defect-rich nitrogen-doped carbon nanotubes with significantly promoted catalysis, Chemistry-A European Journal, 2015, 21, 8004-8009 (IF=5.731) (Hot paper) (highlighted as frontispiece)

[76] Zhongkui Zhao*, Yitao Dai, Guifang Ge, Qing Mao, Zeming Rong, and Guiru Wang, A Facile Approach to Fabricate N-Doped Mesoporous Graphene/Nanodiamond Hybrid Nanocomposite with Synergistically Enhanced Catalysis, ChemCatChem, 2015, 7(7), 1070-1077. (IF=4.556) (highlighted as inside cover)

[75] Zhongkui Zhao*, Yitao Dai, Guifang Ge and Guiru Wang, Guanidine Nitrate Enhanced Catalysis of Nitrogen-Doped Carbon Nanotube for Metal-Free Styrene Production via Direct Dehydrogenation, ChemCatChem, 2015, 7 (7), 1135-1144. (IF=4.556)

[74] Zhongkui Zhao* and Jinfeng Ran, Sulphated mesoporous La2O3-ZrO2 composite oxide as an efficient and reusable solid acid catalyst for alkenylation of aromatics with phenylacetylene, App. Catal. A: Gen., 2015, 503, 77-83. (IF=3.942)

[73] Zhongkui Zhao,* Yitao Dai, and Guifang Ge, Nitrogen-doped nanotubes-decorated activated carbon-based hybrid nanoarchitecture as superior catalyst for direct dehydrogenation, Catal. Sci. Technol. 2015, 5, 1548-1557. (IF=5.426)

[72] Zhongkui Zhao* and Hongling Yang, Ni-W2C/mpg-C3N4 as a promising catalyst for selective hydrogenation of nitroarenes to corresponding aryl amines in the presence of Lewis acid, J. Mol. Catal. A: Chem. 2015, 398， 268-274. (IF=3.615)

[71] Zhongkui Zhao, Nandita Lakshminarayanan, Scott L. Swartz, Gene B. Arkenberg,Larry G. Felix, Rachid B. Slimane, Chun C. Choi, Umit S. Ozkan*, Characterization of olivine-supported nickel silicate as potentialcatalysts for tar removal from biomass gasification, Applied Catalysis A: General 2015, 489, 42–50. (IF=3.942)

[70] Zhongkui Zhao*, J. H. Lin, G. Wang, T. Muhammad. Novel Co-Mn-O Nanosheet Catalyst for CO Preferential Oxidation toward Hydrogen Purification. AIChE J., 2015, 61, 239-252. (IF=2.748, Top journal in Chem. Eng.)

[69] 赵忠奎*，刘柬葳，离子液体中ATRP法合成MCC-g-PGMA分子及其组装研究,河北工业科技, 2015, 32(5), 390-395.

[68] Zhongkui Zhao*, Renzhi Li, Yu Li, and Guiru Wang, Simple Primary Amine Catalyzed Aerobic Reductive Ring-Cleavage of Isoxazole Motif, Chin. J. Catal., 2015, 36(2), 204-208. (IF=1.964)

2014年
[67] Zhongkui Zhao* and Yitao Dai, Nanodiamond/carbon nitride hybrid nanoarchitecture as an efficient metal-free catalyst for oxidant- and steam-free dehydrogenation. J. Mater. Chem. A, 2014, 2(33), 13442-13451. (IF=7.443)

[66] Zhongkui Zhao,* Yitao Dai, Jinhan Lin and Guiru Wang. Highly-Ordered Mesoporous Carbon Nitride with Ultrahigh Surface Area and Pore Volume as a Superior Dehydrogena-tion Catalyst. Chem. Mater. 2014. 26 (10) 3151-3161. (IF=8.354)

[65] Zhongkui Zhao,* Hongling Yang and Yu Li, Synergistic effect from Lewis acid and the Ni-W2C/AC catalyst for highly active and selective hydrogenation of aryl nitro to aryl amine. RSC Adv., 2014,4, 22669-22677 也被Wiley ChemInform收录, Volume 45, Issue 52, December 29, 2014, 11 DEC 2014, DOI: 10.1002/chin.201452037. (IF=3.840)

[64] Turghun Muhammad*, Osmanjan Yimit, Yunusjan Turahun, Kipayem Muhammad, Yildiz Uluda?, Zhongkui Zhao. On-line determination of 4-nitrophenol by combining molecularly imprinted solid phase extraction and fiber optic spectrophotometer. Journal of Separation Science, 2014, 37(14), 1873-1879. (IF=2.737)

[63] Zhongkui Zhao,* Hongling Yang, Yu Li and Xinwen Guo. Cobalt-modified molybdenum carbide as an efficient catalyst for chemoselective reduction of aromatic nitro compounds. Green Chem., 2014, 16(3), 1274-1281.(2014大连市自然科学优秀论文二等奖， 也被Wiley ChemInform收录, Volume 45, Issue 30, July 29, 2014, 10 JUL 2014, DOI: 10.1002/chin.201430074) (IF=8.020) .

[62] Zhongkui Zhao*, Renzhi Li, Yu Li, Reductive cleavage of isoxazole motif catalyzed by copper for highly-efficient and clean synthesis of 1-amino-2-acetyl anthraquinone, Chin. J. Catal., 2014， 35 (3), 319-323. (IF=1.964)

[61] Zhongkui Zhao*, Yu Li, Ting Bao, Guiru Wang and Turghun Muhammad. Hierarchically nanoporous Co-Mn-O/FeOx as a high performance catalyst for CO preferential oxidation in H2-rich stream. Catal. Commun., 2014，46，28-31. (IF=3.699)

[60] Zhongkui Zhao,*, Ting Bao, Yu Li, Xue Min, Dan Zhao and Turghun Muhammad, The supported CeO2/Co3O4-MnO2/CeO2 catalyst on activated carbon prepared by a successive-loading approach with superior catalytic activity and selectivity for CO preferential, Catal. Commun. 2014, 48, 24-28. (IF=3.699)

[59] 布热比亚.亚合普,吐尔洪.买买提,尤努斯江.吐拉洪,佐拉木.买买提,克帕亚木.买买提,阿布都热合曼.吐尔逊,赵忠奎.齐多夫定及其乙酸酯与牛血清白蛋白相互作用的光谱学研究.中国实验方剂学杂质,2014, 20(14), 95-99.

2013年
[58] Zhongkui Zhao*, Renzhi Li, Yu Li. A facile reductive ring-cleavage of isoxazole motif to synthesize 1-amino-2-acetylanthraquinone: Dual role of N,N-dimethylformamide. ScienceJet 2013, 2, 41.

[57] Zhongkui Zhaoa,b,*, Ronghua Jina, Yu Lia, Yitao Daia, Turghun Muhammadb. Mesostructured Co-Ce-Zr-Mn-O composite as a potential catalyst for efficient removal of carbon monoxide from hydrogen-rich stream. Catal. Sci. Technol., 2013, 3， 2130-2139. (IF=5.426)

[56] Zhongkui Zhao*, Xiaoli Lin, Yang Zeng, Ting Bao, Yitao Dai, Ronghua Jin, Turghun Muhammad. Bismuth effect on the catalytic performance of the nanoparticulate Co-Mn/Ce0.85Zr0.15O2 for CO preferential oxidation in simulated syngas. Int. J. Hydrogen Energy, 2013, 38 (4), 1873-1882. (IF=3.313)

[55]Zhongkui Zhao*, Ting Bao, Y. Zeng, Guiru Wang, and Turghun Muhammad, Efficient cobalt-manganese oxide catalyst deposited on modified AC with unprecedented catalytic performance in CO preferential oxidation. Catal. Commun. 2013, 32, 47-51. (IF=3.699)

[54] Zhongkui Zhao*, Ronghua Jin, Xiaoli Lin, Guiru. Wang. H3PW12O40/MCM-41 mesoporous solid acid as promising catalysts for alkenylation of p-xylene with phenylacetylene. Energy Sources, Part A 2013, 35(18), 1761-1769 (IF=0.386)

[53] Zhongkui Zhao*, Yitao Dai, A comparison of the H3PW12O40/MCM-41 and HY zeolite for alkenylation of p-xylene with phenylacetylene. Adv. Mater. Res., 2013,634-638, 377-381.(EI)

2012年
[52] Ting Bao, Zhongkui Zhao*, Yitao Dai, Xiaoli Lin, Ronghua Jin, Guiru Wang, Turghun Muhammad. Supported Co3O4-CeO2 catalysts on modified activated carbon for CO preferential oxidation in H2-rich gases. Appl. Catal. B: Environ., 2012, 119-120,62-73. (IF=7.435)

[51] Zhongkui Zhao*, Yitao Dai, Ting Bao, Renzhi Li, Guiru Wang. Direct alkenylation of aromatics with phenylacetylene over supported H3PW12O40 catalysts as a clean and highly efficient approach to producing α-arylstyrenes. J. Catal., 2012, 288, 44-53. (IF=6.921) 2013年，大连市自然科学优秀学术论文二等奖

[50] Zhongkui Zhao*, Xiaoli Lin, Ronghua Jin, Yitao Dai, Guiru Wang. Improvement of nano-particulate CexZr1-xO2 composite oxides supported cobalt oxide catalysts for CO preferential oxidation in H2-rich gases. Catal. Sci. Technol. 2012, 2(3), 554-563. (IF=5.426)

[49] Zhongkui Zhao*, Ronghua Jin, Ting Bao, Hongling Yang, Xiaoli Lin, Guiru Wang. Mesoporous CexMn1-xO2 composites as novel alternative carriers of supported Co3O4 catalysts for CO preferential oxidation in H2 stream. Int. J. Hydrogen Energy, 2012, 37(6), 4774-4786. (IF=3.313)

[48] Zhongkui Zhao*, X. L. Lin, R. H. Jin, G. R. Wang, T. Muhammad. MOx (M = Mn, Fe, Ni or Cr) improved supported Co3O4 catalysts on ceria-zirconia nanoparticulate for CO preferential oxidation in H2-rich gases. Appl. Catal. B: Environ. 2012，115-116, 53-62. (IF=7.435)

2011年
[47] Zhongkui Zhao*, Ronghua Jin, Ting Bao, Xiaoli Lin, Guiru Wang. Mesoporous ceria-zirconia supported cobalt oxide catalysts for CO preferential oxidation reaction in excess H2. Appl. Catal. B: Environ. 2011, 110, 154-163. (IF=7.435)

[46] Zhongkui Zhao*, Xiaoli Lin, Ronghua Jin, Yitao Dai, Guiru Wang. High catalytic activity in CO PROX reaction of low cobalt-oxide loading catalysts supported on nano-particulate CeO2–ZrO2 oxides. Catal. Commun. 2011, 12, 1448-1451. (IF=3.699)

[45] Ronghua Jin, Xiaoli Lin, Guiru Wang, Zhongkui Zhao*. Recent progress in high-specific surface area ceria-zirconia composite oxides: Insights into fabrication, characterization and application in heterogeneous catalysis. Global J. Phys. Chem., 2011, 2, 371-385.

2010年
[44] Zhongkui Zhao*, Xiaoli Lin, Ronghua Jin, Guiru Wang, et al. Recent progress on the non-precious metal oxides catalyzed preferential oxidation of carbon monoxide in excess H2. Curr. Top. Catal. 2010, 9, 1-14.

2009年
[43] Qijun Hou, Bumei Zheng, Chenguang Bi, Jimei Luan, Zhongkui Zhao*, Hongchen Guo, Guiru Wang, Zongshi Li. Liquid-phase cascade acylation/dehydration over various zeolite catalysts to synthesize 2-methyl anthraquinone through an efficient one-pot strategy. J. Catal. 2009, 268, 376-383. (IF=6.921)

[42] Zhongkui Zhao, Nandita Lakshminarayanan, John N. Kuhn, Allyson Senefeld-Naber, Larry G. Felix, Rachid B. Slimane, Chun W. Choi, Umit S. Ozkan*. Optimization of thermally impregnated Ni-olivine catalysts for tar removal. Appl Catal A: Gen., 2009, 363(1-2), 64-72. (IF=3.942)

2008年
[41] Zhongkui Zhao, John N. Kuhn, Umit S. Ozkan*, Larry G. Felix, Rachid B. Slimane. Thermally impregnated Ni-olivine catalysts for tar removal by steam reforming in biomass gasifiers. Ind. Eng. Chem. Res., 2008, 47(3): 717-723. (IF=2.587)

[40] Zhongkui Zhao, Matthew M. Yung, Umit S. Ozkan*. Effect of supports on preferential CO oxidation in hydrogen-rich gas over Co catalysts. Catal. Commun., 2008, 9(6): 1465-1471. (IF=3.699)
[39] John N. Kuhn, Zhongkui Zhao, Larry G. Felix, Rachid B. Slimane, Chun W. Choi, Umit S. Ozkan*. Olivine catalysts for methane- and tar- steam reforming. Appl. Catal. B: Environ., 2008, 81: 14-26. (IF=7.435)
[38] Matthew M. Yung, Zhongkui Zhao, Matthew P. Woods, Umit S. Ozkan*. Preferential Oxidation of Carbon Monoxide on CoOx/ZrO2. J. Mol. Catal. A: Chem., 2008, 279(1-2): 1-9. (IF=3.615)
[37] John N. Kuhn, Zhongkui Zhao, Allyson Senefeld-Naber, Larry G. Felix, Rachid B. Slimane, Chun W. Choi, Umit S. Ozkan*. Ni-olivine catalysts prepared by thermal impregnation: structure, steam reforming activity, and stability. Appl. Catal. A: Gen., 2008, 341 (1-2): 43-49. (IF=3.942)

[36] 赵忠奎*,李宗石,乔卫红,程侣柏. 癸基甲基萘磺酸盐表面活性剂的合成及性能研究（强碱）.大连理工大学学报, 2008, 48(3): 318-322.

2007年
[35] Zhongkui Zhao*, Chenguang Bi, Weihong Qiao, Zongshi Li, Lvbo B. Cheng. Dynamic interfacial tension behaviors between novel surfactant solutions and Daqing crude oil. Colloids Surf. A: Physicochem. Eng. Asp. 2007, 294, 191-202. (IF=2.752)

[34] ZhongkuiZhao*, Fei Liu, Wenli Wang, Zongshi Li, Weihong Qiao, Lvbo Cheng. Studies on Dynamic Interfacial Tension between Crude Oil and Novel Surfactant Solutions with Buffered Alkaline. Energy Source Part A. 2007, 29 (6): 537-547. (IF=0.386)

[33] Zhongkui Zhao*, Zongshi Li, Weihong Qiao and Lvbo Cheng The Dynamic Interfacial Tension Between Crude Oil and Dodecyl methylnaphthalene Sulfonate Surfactant Flooding Systems, Energy Source Part A. 2007, 29 (3): 207-215. (IF=0.386)

2006年
[32] Zhongkui Zhao*, Chenguang Bi, Zongshi Li, Weihong Qiao, Lvbo Cheng. Interfacial tension between crude oil and decylmethylnaphthalene sulfonate surfactant solution without alkaline. Colloids Surf. A: Physicochem. Eng. Asp., 2006, 276, 186-191. (IF=2.752)

[31] Zhongkui Zhao*, Weihong Qiao, Xiuna Wang, Guiru Wang, Zongshi Li, Lvbo Cheng. Effect of alkaline earth on the performance of HY zeolite for Friedel-Crafts alkylation of α-methylnaphthalene with long-chain olefins. Micropor. Mesopor. Mater. 2006, 94, 105-112. (IF=3.453)

[30] Zhongkui Zhao*, Weihong Qiao, Guiru Wang, Zongshi Li, Lvbo Cheng. Alkylation of α-methylnaphthalene with long-chain olefins catalyzed by rare earth lanthanum modified HY zeolite. J. Mol. Catal. A: Chem. 2006, 250, 50-56. (IF=3.615)

[29] Zhongkui Zhao*, Wwenli Wang, Weihong Qiao, Guiru Wang, Zongshi Li, Lvbo Cheng. HY zeolite catalyst for alkylation of α-methylnaphthalene with long-chain alkenes. Micropor. Mesopor. Mater., 2006, 93, 164-170 (IF=3.453)

[28] Zhongkui Zhao*, Fei Liu, Zongshi Li, Weihong Qiao, Lvbo Cheng. Novel alkyl methylnaphthalene sulfonate surfactants: a good candidate for enhanced oil recovery. Fuel, 2006, 85, 1815-1820. (IF=3.520)

[27] Zhongkui Zhao*, Zongshi Li, Weihong Qiao, Lvbo Cheng. The Dynamic Interfacial Tension Between Crude Oil and Octylmethylnaphthalene Sulfonate Surfactant Solution (Buffered alkaline and without alkaline), Energy Source Part A. 2006, 28 (15): 1397-1403. (IF=0.386)

[26] Zhongkui Zhao*, Yan Ba, Zongshi Li, Weihong Qiao, Lvbo Cheng. Synthesis and Interfacial Behavior of Decyl Methylnaphthalene Sulfonate (Effect of parameters on DITmin, tmin, tul for flooding systems with strong and buffered alkaline). Petroleum. Sci. Technol., 2006, 24(6): 595-606.(IF=0.307)

[25] Zhongkui Zhao, Zongshi Li*, Weihong Qiao, Guiru Wang, Lvbo Cheng. A Study on Friedel-Crafts Alkaylation in Ambient Temperature Ionic Liquids, Petroleum. Sci. Technol., 2006, 24: 129-135.(IF=0.307)

[24] Zhongkui Zhao*, Fei Liu, Zongshi Li, Weihong Qiao, Lvbo Cheng. Dynamic Interfacial Tension Behavior Between Crude Oil and Novel Surfactant Flooding Systems without alkaline, Petroleum Sci. Technol., 2006, 24 (12): 1469-1476.(IF=0.307)

2005年
[23] Zhongkui Zhao*, Weihong Qiao, Guiru Wang, Zongshi Li, Lvbo Cheng. Effects of kinds of ionic liquid catalysts on alkylationsof α-/β-methylnaphthalene with alkenes. Appl. Catal. A: Gen. 2005, 290, 133-137. (IF=3.942)

[22] Zhongkui Zhao*, Weihong Qiao, Xiuna Wang, Guiru Wang, Zongshi Li, Lvbo Cheng. HY promoted free-solvent alkylation of α-methylnaphthalene with long chain olefins in liquid-solid intermittent reaction. J. Mol. Catal. A: Chem., 2005, 241, 194-198. (IF=3.615)

[21] Zhongkui Zhao*, Zongshi Li, Weihong Qiao, Guiru Wang, Lvbo Cheng. An efficient method for the alkylation of α-methylnaphthalene with various alkylating agents using methanesulfonic acid as novel catalysts and solvents. Catal. Lett., 2005, 102, 219-222.(IF=2.307)

[20] Zhongkui Zhao*, Weihong Qiao, Guiru Wang, Zongshi Li, Lvbo Cheng. Alkylation of α-methylnaphthalene with long-chain alkenes catalyzed by butylpyridinium chloroaluminate ionic liquid. J. Mol. Catal. A: Chem., 2005, 231, 137-143.(IF=3.615)

[19] Zhongkui Zhao*, Bing Yuan, Weihong Qiao, Zongshi Li, Guiru Wang, Lvbo Cheng. The metal ion modified ionic liquids promoted free-solvent alkylations of α-methylnaphthalene with long-chain olefins. J. Mol. Catal. A: Chem., 2005, 235, 74-80.(IF=3.615)

[18] Zhongkui Zhao*, Zongshi Li, Weihong Qiao, Lvbo Cheng. Dynamic Interfacial Behavior (DITmin, DITeq, tul etc) Between Crude Oil and Octylmethylnaphthalene Sulfonate Surfactant Flooding Systems. Colloids Surf. A: Physcochem. Eng. Asp., 2005, 259, 71-80.(IF=2.752)

[17] Zhongkui Zhao, Yan Ba, Zongshi Li*, Weihong Qiao. Synthesis and Surface Activity of alkyl-methylnaphthalene Sulfonate Surfactants, Energy Source Part A. 2005, 27: 1277-1283.(IF=0.386)

[16] 赵忠奎,李宗石*,付新梅,乔卫红,程侣柏.反相高效液相色谱-电喷雾质谱研究烷基甲基萘单、双磺酸盐的分离.大连理工大学学报, 2005, 45(4): 501-504.

[15] 赵忠奎*,乔卫红,付新梅,李宗石,程侣柏.系列烷基甲基萘磺酸盐的高效液相色谱和电喷雾离子化质谱分析.分析测试学报, 2005, 24(3): 10-13.

2004年
[14] Zhongkui Zhao, Zongshi Li*, Guiru Wang, Weihong Qiao, Lvbo Cheng. Friedel-Crafts alkylation of 2-methylnaphthalene in room temperature ionic liquids. Appl. Catal. A: Gen., 2004, 262, 69-73.(IF=3.942)

[13] Zhongkui Zhao*, Weihong Qiao, Zongshi Li, Guiru Wang, Lvbo Cheng. Friedel-Crafts alkylation of α-methylnaphthalene in the presence of ionic liquids. J. Mol. Catal. A: Chem., 2004, 222, 207-212. (IF=3.615)

[12] Zhongkui Zhao, Zongshi Li*, Weihong Qiao, Guiru Wang, Lvbo Cheng. Alkylation of α-methylnaphthalene with long-chain olefins over large-pore zeolites. Catal. Lett., 2004, 98, 145-151. (IF=2.307)

[11] Zhongkui Zhao*, Zongshi Li, Weihong Qiao, and Lvbo Cheng. Study on the Synthesis and Properties of Novel alkyl methylnaphthalene sulfonate surfactants Part 1 Synthesis of Monoalkylated Methylnaphthalene Intermediates for Surfactants. Tenside Surf. Det. 2004, 41(2): 67-71.(IF=0.739)

[10] Zhongkui Zhao*, Yan Ba, Zongshi Li, Weihong Qiao and Lvbo Cheng. Dynamic Interfacial Behavior of Decyl Methylnaphthalene Sulfonate Surfactants for Enhanced Oil Recovery (Buffered alkaline), Tenside Surf. Det. 2004, 41 (5): 225-229.(IF=0.739)

[9] 赵忠奎*,袁冰,李宗石,王桂茹,乔卫红,程侣柏.环境友好的离子液体及其在付-克反应中的应用.中国基础科学,2004,6(1):19-25.

[8] 赵忠奎,李宗石*,王桂茹,乔卫红,程侣柏.杂多酸催化剂及其在精细化学品合成中的应用.化学进展,2004,16(4): 620-630.(IF=0.687)

[7] 赵忠奎*,乔卫红,袁冰,李宗石,程侣柏.长链烷基甲基萘的合成. 南京理工大学学报, 2004, 28(3): 311-315,320.

[6] 赵忠奎,乔卫红,李化民,李宗石*,程侣柏.β-甲基萘与长链烯烃烷基化的研究.大连理工大学学报,2004,44(1): 39-43.

[5] 董伟峰，赵忠奎，乔卫红，王桂茹，李宗石*.分子筛催化α-甲基萘的异构化.石油化工,2004,33(9): 820-823.

2003年
[4] Weihong Qiao, Liangjun Dong, Zhongkui Zhao, Jie Yang, Huamin Li and Zongshi Li*. Interfacial Behavior of Pure Surfactants for Enhanced Oil Recovery Part 1: A study on the adsorption and distribution of cetylbenzene sulfonate, Tenside Surf. Det. 2003,40(2): 87-89.(IF=0.739)

[3] 赵忠奎,乔卫红,王秀娜,李宗石*,程侣柏.气相色谱-质谱联用研究β-甲基萘的长链烷基化.分析化学,2003, 31(11):1300-1306.(IF=0.754)

[2] 赵忠奎,乔卫红,王秀娜,李宗石*.程侣柏.β-甲基萘的长链烷基化产物的毛细管气相色谱-质谱分析.分析测试学报,2003,22(6):74-77.

2002年
[1] 赵忠奎,乔卫红*,李宗石. Gemini表面活性剂.化学通报(网络版), 2002, 65(8):W059. http://www.hxtb.org/col/2002/c02059.htm.



出版专著或专章
[5] 赵忠奎, 张淑芬.高效反应技术与绿色化学.中国石化出版社, 2012.7, ISBN 978-7-5114-1563-9. <获得2014年中国石油和化学工业优秀出版物二等奖>，中国石油和化学工业联合会

[4] Zhongkui Zhao and Yitao Dai. Ionic Liquids as Green Solvents for Alkylation and Acylation. Chapter 2nd in Green Solvents II: Properties and Applications of Ionic Liquids (Invited). Editor: Ali Mohammad, Springer, United Kingdom. ISBN 978-94-007-2890-5, DOI 10.1007/978-94-007-2891-2, 2012, pp33-66.

[3] Zhongkui Zhao, Ronghua Jin and Guiru Wang. Solid Acid Catalysts and Their Applications in Green Synthesis of Fine Chemical. Chapter 1st in Catalysis: Principles, Types and Applications (Invited). Editor: Minsuh Song, Nova Science Publishers, New York, USA. ISBN: 978-1-61209-654-4. 2011: pp1-99.

[2] Zhongkui Zhao, Xiaoli Lin and Yitao Dai. Lanthanum-containing Catalytic Materials and Their Applications in Heterogeneous Catalysis. Chapter 2 in Lanthanum: Compounds, Production and Applications. Editor: Ryan J Moore，Nova Science Publishers, Inc. Hauppauge, New York, USA, ISBN: 978-1-61728-111-2. 2010, pp109-158. 也被Wiley ChemInform收录, Volume 42, Issue 36, September 6, 2011, 11 AUG 2011, DOI: 10.1002/chin.201136216

[1] Zhongkui Zhao, Zongshi Li, Weihong Qiao, Guiru Wang, Surface and Interfacial Tension Behavior of Novel Alkyl Methylnaphthalene Sulfonate Surfactant Solutions. Editor: Peter A. Fong, Colloid and Surface Research Trends, Chapter 1st, Nova Science Publishers, Inc. Hauppauge, New York, USA. ISBN: 1-60021-593-9. 2007: pp1-76.