李金龙 Li Jinlong

院长(教授)

齐齐哈尔大学 化学与化学工程学院

新型催化材料的构建及其光催化应用 , 气体膜分离技术的开发与应用

简介  ABOUT

动态   NEWS

学术   ACADEMIC

个人简介

李金龙,男,1977年11月出生,博士,教授;本科毕业于齐齐哈尔大学化学工程与工艺专业,获工学学士学位,硕士毕业于齐齐哈尔大学应用化学专业,获工学硕士学位,博士毕业于日本新泻大学化学工程与技术,获工学博士学位;现为黑龙江省精细化学品催化合成重点实验室主任、黑龙江省工业催化领军人才梯队后备带头人、黑龙江省教学名师、齐齐哈尔市化学工程与技术领军人才梯队带头人;近年来,在催化新材料开发与应用、膜分离等领域取得了一些重要研究成果,在Journal of Membrane Science (IF=7.183, JCR一区)、Journal of Alloys and Compounds (IF=4.65, JCR一区)等国内外知名期刊上发表论文70多篇,其中SCI收录30余篇;主持承担省部级教科研项目4项、市厅级项目5项,出版教材4部,授权发明专利2项,获齐齐哈尔市科技进步一等奖1项、黑龙江省高等学校教育优秀成果二等奖1项;指导研究生已毕业7人,在籍6人。

主要研究方向:(1)新型催化材料的构建及其光催化应用,(2)气体膜分离技术的开发与应用。

学科专业:工业催化(工科),物理化学(兼职导师)

联系电话:0452-2738227

Emailjinlong141@163.com

个人网页:http://www.scholat.com/jinlong

工作经历

2003.02-2004.08  齐齐哈尔大学化学与化学工程学院       助教

2004.08-2009.08  齐齐哈尔大学化学与化学工程学院       讲师

2009.09-2010.05  齐齐哈尔大学化学与化学工程学院        副教授

2010.06-2012.06  齐齐哈尔大学化工原理实验教学中心     主任/副教授

2012.07-2013.06  齐齐哈尔大学精细化工研究所                  负责人/副教授

2013.07-2015.08  齐齐哈尔大学化学与化学工程学院          副院长/副教授

2012.10-2013.09  日本东京工业大学化学工程与技术专业  访问学者

2015.09-2019.06  齐齐哈尔大学化学与化学工程学院          副院长/教授

2019.07-至今       齐齐哈尔大学化学与化学工程学院           院长/教授

主要荣誉

2011年8月,黑龙江省首届高等学校教学新秀,黑龙江省教育厅;

2013年5月,黑龙江省新长征突击手,共青团黑龙江省委员会;

2017年12月,黑龙江省留学人员报国奖,黑龙江省欧美留学会;

2015年5月,齐齐哈尔市青年五四奖章获得者,共青团齐齐哈尔市委员会;

2012年6月,齐齐哈尔“创业、创新、创优”活动优秀共产党员,中共齐齐哈尔市委员会

学术任职

黑龙江省精细化学品催化合成重点实验室主任

黑龙江省化工虚拟仿真实验教学中心主任

黑龙江省工业催化省级领军人才梯队后备带头人

齐齐哈尔市化学工程与技术领军人才梯队带头人

代表成果

2023

[1] J. Tang, R.P. Xu, G.Z. Sui*, D.X. Guo*, Z.L. Zhao, S.S. Fu, X. Yang, Y. Li, J.L. Li*, Double-shelled porous g-C3N4 nanotubes modified with amorphous Cu-doped FeOOH nanoclusters as 0D/3D non-homogeneous photo-Fenton catalysts for effective removal of organic dyes [J]. Small, 2023, 19(22): 202208232.

[2]X.N. Yang, Y.N. Wang, X. Yang, S.S. Fu, G.Z. Sui, D.F. Chai*, J.L. Li*, D.X. Guo*, Lattice strain assisted with interface engineering for designing efficient CoSe2-CoO core-shell microspheres as promising electrocatalysts towards overall water splitting [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 663: 131039.

[3] C. Wang, W. Wang, W.X. Guo, D.X. Guo*, J.L. Li*, X. Yang, S.S. Fu, D.F. Chai*, G.Z. Sui, Y. Li, Liquid Nitrogen Quenching Inducing Lattice Tensile Strain to Endow Nitrogen/Fluorine Co-Doping Fe3O4 Nanocubes Assembled on Porous Carbon with Optimizing Hydrogen Evolution Reaction [J]. Journal of Colloid and Interface Science, 2023, 638: 813-824.

[4] S. Liang, G.Z. Sui*, D.X. Guo*, Z. Luo, R.P. Xu, H. Yao, J.L. Li*, C. Wang, g-C3N4-wrapped nickel doped zinc oxide/carbon core-double shell microspheres for high-performance photocatalytic hydrogen production [J]. Journal of Colloid and Interface Science, 2023, 653: 83-93.

[5] R.P. Xu, J.L. Li*, G.Z. Sui*, Y. Zhuang, D.X. Guo, Z. Luo, S. Liang, H. Yao, C. Wang, Construction of novel CdS@CuS/g-C3N4 heterojunctions for efficient visible light-driven photo-Fenton degradation performance [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 659: 130598.

[6] S. Liang, G.T. He, G.Z. Sui*, J.L. Li*, D.X. Guo, Z. Luo, R.P. Xu, H. Yao, C. Wang, Z.Y. Xing, ZIF-L-derived C-doped ZnO via a two-step calcination for enhanced photocatalytic hydrogen evolution, Journal of Molecular Structure, 2023, 1276: 134787.

[7] Y. Zhou, Y.S. Wu, D.X. Guo*, J.L. Li*, G.H. Dong*, D.F. Chai, X. Yang, S.S. Fu, G.Z. Sui, Sulfur vacancy modulated nickel-doped Co4S3 hollow nanocube/nitrogen-doped V2CTx MXene nanosheet composites for optimizing the hydrogen evolution reaction [J]. Materials Chemistry Frontiers, 2023, 2(7): 306-314.

[8] Y. Zhou, Y.S. Wu, D.X. Guo*, J.L. Li*, Y. Li, X. Yang, S.S. Fu, G.Z. Sui, D.F. Chai, Novel Strain Engineering Combined with a Microscopic Pore Synergistic Modulated Strategy for Designing Lattice Tensile- Strained Porous V2C-MXene for High-Performance Overall Water Splitting, ACS Applied Materials & Interfaces, 2023, 15(12): 15797-15809.

[9] H. Yao, G.Z. Sui, J.L. Li*, D.X. Guo*, J.Q. Wang, Y.Z. Yue, B. Jia, X. Xuan, J. Tang, Ni-MOF-74-derived ZnIn2S4 /P-Ni-MOF-74 Z-scheme heterojunctions for highly efficient photocatalytic hydrogen evolution under visible light irradiation, Journal of Molecular Structure, 2023, 1284: 135398.

[10] Z.S. Wang, J.L. Li*, S.S. Fu*, D.X. Guo*, J. Tang, X. Yang, R.P. Xu, G.Z. Sui, S.J. Chen, Construction of MoS2/CdS/Bi2MoO6 Z-scheme photocatalyst for efficient photocatalytic degradation under visible-light, Journal of Solid State Chemistry, 2023, 322: 123957.

2022

[1]  H. Yao, G. Jin, G.Z. Sui*, J.L. Li*, D.X. Guo, S. Liang, Z. Luo, R.P. Xu, C. Wang, J. Tang, ZIF-67-derived ZnIn2S4/NiCoP Z-scheme heterojunctions for enhanced visible-light-driven photocatalytic hydrogen production [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 653: 129991.

[2] C. Wang, G.Z. Sui, D.X. Guo*, J.L. Li*, D.F. Chai, M.L. Qi, G.Q. Zhao, D.D. Ma, Oxygen vacancy-engineered Fe2O3 porous microspheres with large specific surface area for hydrogen evolution reaction and lithium-sulfur battery [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 649: 129476.

[3] C. Wang, G.Z. Sui, D.X. Guo*, J.L. Li*, Z. Luo, D.F. Chai, M.L. Qi, A novel self-activation strategy for designing oxygen vacancies-rich nickel ferrite and cobalt ferrite microspheres with large specific surface area for overall water splitting, International Journal of Hydrogen Energy, 2022, 47(58): 24343-24357.

[4] W.X. Guo, D.F. Chai*, J.L. Li*, J. Lv, J.P. Wang, D.X. Guo*, G.Z. Sui, J. Xing, Oxygen vacancy rich and phosphate ions modulated hierarchical mesoporous NiCo2O4-CoO hollow nanocubes as efficient and stable electrodes for high-performance supercapacitor [J]. Journal of Energy Storage, 2022, 52: 104849.

[5] C. Wang, G.Z. Sui, D.X. Guo*, J.L. Li*, X.Y. Ma, Y. Zhuang, D.F. Chai, Oxygen vacancies-rich NiCo2O4-4x nanowires assembled on porous carbon derived from cigarette ash: A competitive candidate for hydrogen evolution reaction and supercapacitor [J]. J. Energy Storage, 2022, 50: 104280.

[6] C. Wang, G.Z. Sui, D.X. Guo*, J.L. Li*, X.Y. Ma, Y. Zhuang, D.F. Chai, Inverted design of oxygen vacancies modulated NiCo2O4 and Co3O4 microspheres with superior specific surface area as competitive bifunctional materials for supercapacitor and hydrogen evolution reaction[J]. J. Energy Storage, 2022, 49:104083.

[7] Z. Luo, J.L. Li*, G.Z. Sui*, Y. Zhuang, D.X. Guo, R.P. Xu, S. Liang, H. Yao, C. Wang, S.J. Chen, Metal organic frameworks template-directed fabrication of rod-like hollow BiOClxBr1−x with adjustable band gap for excellent photocatalytic activity under visible light [J]. Korean J. Chem. Eng., 2022, 39(4): 986-996.

[8] S. Liang, G.Z. Sui*, J.L. Li*, D.X. Guo, Z. Luo, R.P. Xu, H. Yao, C. Wang, S.J. Chen, ZIF-L-derived porous C-doped ZnO/CdS graded nanorods with Z-scheme heterojunctions for enhanced photocatalytic hydrogen evolution[J]. Inter. J.Hydrogen Energ., 2022, 47: 11190-11202.

[9] G.Z. Sui*, Y.L. Zhang, J.L. Li*, D.X Guo, Y. Zhuang, Z. Luo, R.P. Xu, S. Liang, H. Yao, C. Wang, Modification of hollow BiOCl/TiO2 nanotubes with phosphoric acid to enhance their photocatalytic performance [J]. Korean J. Chem. Eng., 2022, 39(4): 986-996.

2021        

[1] Chao Wang, Guozhe Sui, Dongxuan Guo*, Jinlong Li*, Li Zhang, Shaobin Li, Jianjiao Xin, Dongfeng Chai, Ying HuangEnhanced supercapacitive and hydrogen evolution reaction performance using hierarchically porous carbon derived from Viburnum Sargenti fruits. Ionics, 2021, 27(4):1723-1731.    

[2] Jinlong Li*, Boxin Li, Guozhe Sui*, Lijuan Du, Yan Zhuang, Yulin Zhang, Yuanfang ZouRemoval of volatile organic compounds from air using supported ionic liquid membrane containing ultraviolet-visible light-driven Nd-TiO2 nanoparticles. Journal of  Molecular Structure, 2021, 1231C: 130023.

[3] Jinlong Li*, Yan Zhuang, Guozhe Sui*, Dongxuan Guo, Yulin Zhang, Ze Luo, Rongping Xu, Shuang Liang, Hong Yao. Synthesis of bayberry-like hollow Gd/g-C3N4 nanospheres with high visible-light catalytic performance. Ionics, 2021,  27(7): 3185-3194.

[4] Chao Wang, Guozhe Sui, Dongxuan Guo*, Jinlong Li*, Li Zhang, Shaobin Li, Jianjiao Xin, Dongfeng Chai, Wenxin Guo. Structure-designed synthesis of hollow/porous cobalt sulfide/phosphide based materials for optimizing supercapacitor storage properties and hydrogen evolution reaction. Journal of Colloid and Interface Science, 2021, 599: 577–585.

[5] Zhuoxun Yin, Shu Zhang, Jinlong Li, Shangkun Ma, Wei Chen, Xinzhi Ma, Yang Zhou, Zhuanfang Zhang, Xin Wang. In situ fabrication of a Ni-Fe-S hollow hierarchical sphere: an efficient (pre)catalyst for OER and HER. New Journal of Chemistry, 2021, 45(29): 12996-13003.

[6] Jie Ma, Jinlong Li, Rui Yang, Weijian Xue, Qingxia Wang, Shenmiao Li. New excited state intramolecular proton transfer dyes based on naphthalenediimides (NDI) and its population of triplet excited state. Dyes and Pigments, 2021, 188: 109225.

[7] Rongping Xu, Jinlong Li*, Guozhe Sui*, Yan Zhuang, Dongxuan Guo, Ze Luo, Shuang Liang, Hong Yao, Chao Wang, Shijie Chen. Constructing supramolecular self-assembled porous g-C3N4 nanosheets containing thiophene-groups for excellent photocatalytic performance under visible light. Applied Surface Science, 2021, 578: 152064.

2020

[1] Fengjuan Cui*, Qingfang DengHuaping ZhaoYan JiangJinlong Li*. Ionic liquid promoted synthesis of nitrogen, phosphorus, and fluorine triple-doped mesoporous carbon as metal-free electrocatalyst for oxygen reduction reaction.  Ionics, 2020, 26(9): 4609-4619

 

 [2] Shijie Chen*, Guangshan ZhangYingjie LiJinlong LiRenjiang LvPeng WangNan ChenXi ChenSynthesis of Surfactant-Assisted C/Fe-FeVO4 Nanostructure: Characterization and Photocatalytic Degradation of Ciprofloxacin .  Journal of Nanoscience and Nanotechnology, 2020, 20(9):5636-5641     

[3] Jiangxu WangZhiyong Xing*, Zhennan TianDingqi WuYuanyuan XiangJinlong Li*. A dual-functional probe for sensing pH change and ratiometric detection of Cu2+ .  Spectrochimica Acta Part A-molecular and Biomolecular Spectroscopy, 2020, 235:118318     [4] Guozhe Sui*, Jinlong Li*, Lijuan DuYan ZhuangYulin ZhangYuanfang ZouBoxin LiPreparation and characterization of g-C3N4/AgeTiO2 ternary hollowsphere nanoheterojunction catalyst with high visible light photocatalytic performance.  Journal of Alloys and Compounds, 2020, 823: 153851     [5] Tingting LiuJiao XuChengguo LiuShuang ZengZhiyong Xing*, Xuejiao SunJinlong Li*. A novel dual-function probe for recognition and differentiation of Zn2+ and Al3+ and its application.  Journal of Molecular Liquids, 2020, 235 : 118318

 

2019 [6] Deshuai ZhenMeng GuoXiaofeng LiHaili MaoChangan LiJinlong LiYu Liu*. Eu-TiO2 Nanocomposite with High Photoelectrochemical Activity for Enhanced Photocatalysis of Rhodamine B.  Journal of Nanoscience and Nanotechnology, 2019, 19(12): 7758-7763     [7] Shuangqiang JiaJinlong Li*, Guozhe Sui*, Lijuan DuYulin ZhangYan ZhuangBoxin LiSynthesis of 3D flower-like structured Gd/TiO2@rGO nanocomposites via a hydrothermal method with enhanced visible-light photocatalytic activity .  RSC Advances, 2019, 9:31177–31185     [8] Xuejiao SunYuqing MaHong FuZhiyong Xing*, Zhigang SunYue ShenJinlong Li*. A Highly Selective Fluorescence "Turn on" and Absorbance-Ratiometric Detection of Al3+ in Totally H2O and its Application in Test Paper.  Journal of Fluorescence, 2019, 29(3):577-586     [9] Shuang ZengShijie LiXuejiao SunMingqiang LiZhiyong Xing*, Jinlong Li*. A benzothiazole-based chemosensor for significant fluorescent turn-on and ratiometric detection of Al3+ and its application in cell imaging .  Inorganica Chimica Acta, 2019, 486:654-662

 

2018    [10] Shuang ZengShijie LiXuejiao SunMingqiang LiZhiyong Xing*, Jinlong LiA naphthalene-quinoline based chemosensor for fluorescent "turn-on" and absorbance-ratiometric detection of Al3+ and its application in cells imaging .  Spectrochimica Acta Part A-molecular and Biomolecular Spectroscopy, 2019, 205: 276-286[11] Jinlong Li*, Lijuan DuShuaiqiang JiaGuozhe Sui*, Yulin ZhangYan ZhuangBoxin LiZhiyong Xing*. Synthesis and photocatalytic properties of visiblelight-responsive, three-dimensional, flower-like La–TiO2/g-C3N4 heterojunction composites.  RSC Advances, 2018, 8: 29645–29653     [12] Shijie ChenXunan ZhaiYingjie Li*, Jinlong LiRenjiang LvPeng WangXiaojun TangXi ChenLidi GaoFacile Synthesis and High Activity of Novel Composite C/Fe-BiVO4 Photocatalyst for Degradation of Cipfloxacin .  Journal of Nanoscience and Nanotechnology, 2018, 18(4): 2472-2480     [13] Jinlong Li*, Shuaiqiang JiaGuozhe SuiLijuan DuPreparation of a cerium/titanium composite with porous structure and enhanced visible light photocatalytic activity using b-cyclodextrin polymer microspheres as the template.  Chemical Papers, 2018, 72:369–379     [14] Nana LiShuang ZengMingqiang LiYuqing MaXuejiao SunZhiyong Xing*, Jinlong LiA Highly Selective Naphthalimide-Based Chemosensor: "Naked-Eye" Colorimetric and Fluorescent Turn-On Recognition of Al3+ and Its Application in Practical Samples, Test Paper and Logic Gate .  Journal of Fluorescence, 2018, 28(1):347-357

 

2017     [15] Jinlong Li*, Shuaiqiang JiaGuozhe SuiLijuan DuBoxin LiPreparation of hollow Nd/TiO2 sub-microspheres with enhanced visible-light photocatalytic activity.  RSC Advances, 2017, 7(55): 34857-34865     [16] Lei KangYatong LiuNana LiQianxi DangZhiyong Xing*, Jinlong LiYu ZhangA schiff-base receptor based naphthalimide derivative: Highly selective and colorimetric fluorescent turn-on sensor for Al3+.  Journal of Fluorescence, 2017, 186:48-52

 

2016     [17] Kirill FedorovLihua Jia*, Xiangfeng GuoJinlong LiInfluence of Sulfation Treatment on Photocatalytic Performance of Mesoporous Bi2O3-TiO2 Composites .  Journal of Nanoscience and Nanotechnology, 2016, 16(7) : 7490-7496     [18] Jinlong Li*, Tingting ZhaoGuozhe SuiShuaiqiang JiaCO2 separation from air using microporous polyvinylidene fluoride-supported triethylene glycol/alkanolamine liquid membranes.  Materials Express, 2016, 6(2):183-191     [19] Guozhe SuiJinlong Li*, Tao LiuTingting ZhaoZhenli HaoDeshuai ZhenJun LvLihua JiaTao JingPreparation and photocatalytic performance of a Pr–SiO2–TiO2 nanocomposite for degradation of aqueous dye wastewater.  Materials Express, 2016, 6(1): 1-9

 

2015     [20] Jinlong Li*, Jinqiang GaoGuozhe SuiLihua JiaSynthesis and characterization of a chitosan/LiCl organic-inorganic hybrid membrane for air dehumidification.  Science of Advanced Materials     [21] Jinlong Li*, Tao LiuGuozhe SuiDeshuai ZhenPhotocatalytic performance of a Nd–SiO2–TiO2 nanocomposite for degradation of rhodamine B dye wastewater.  Journal of Nanoscience and Nanotechnology, 2015. 15: 1408-1415

 

2014     [22] Jinlong Li*, Jinqiang GaoGuozhe SuiLihua JiaChunling ZuoQigang DengInfluence of a glycerin additive on the structure and water vapor permeance of chitosan membranes.  Materials Express, 2014, 4:491-498

 

2013     [23] Guozhe SuiTao LiuJinlong Li*, Lihua JiaJun LvPhotocatalytic degradation of dyestuff wastewater with Zn2+-TiO2-SiO2 nanocomposite.  Journal of Nanoscience and Nanotechnology, 2013, 13(6): 3972-3977

 

2012     [24] Jinlong Li*, Jinqiang GaoGuozhe SuiAkira ItoDiffusivity, solubility and permeability of water vapor through a supported liquid membrane with glycols.  ENERGY EDUCATION SCIENCE AND TECHNOLOGY PART A-ENERGY SCIENCE AND RESEARCH , 2012,30(1):193-198     [25] Jinlong Li*, Deshuai ZhenGuozhe Sui*, Chunming ZhangQigang DengLihua JiaNanocomposite of Cu-TiO2-SiO2 with high photoactive performance for degradation of rhodamine B dye in aqueous wastewater .  Journal of Nanoscience and Nanotechnology, 2012. 12: 6265–6270

 

2009     [26] Guozhe SuiJinlong LiAkira Ito*. Separation of VOC vapor from air by a surface-soaked liquid membrane module using triethylene glycol. Separation and Purification Technology, 2009, 68: 283-287

 

2008     [27] Jinlong LiAkira ItoDehumidification and humidification of air by surface-soaked liquid membrane module with triethylene glycol. Journal of Membrane Science, 2008, 325:1007-1012

授权专利

1、李金龙, 隋国哲, 高金强. 一种壳聚糖/氯化锂混合膜及其制备方法和应用, ZL201310529761.1,授权日期:2015年09月

2、李金龙, 隋国哲, 赵婷婷. 一种用于二氧化碳气体分离的银离子/醇胺表面含浸液体膜及其制备方法,ZL201410651530.2,授权日期:2016年09月


 

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