师资队伍
教授
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郭伊荇 教授

办公室:环境学院 312 电话:0431-89165626 邮箱:guoyh@nenu.edu.cn 研究方向/负责工作:环境催化
教育经历

1981.09-1985.07, 东北师范大学化学学院化学专业学士

1985.09-1988.07, 东北师范大学化学学院分析化学专业硕士

1998.09-2001.12, 东北师范大学化学学院无机化学专业博士

2006.03-2007.02, 英国约克大学化学系绿色化学中心,博士后


工作经历

1988.07-1990.12东北师范大学分析测试中心助教

1990.12-1998.12东北师范大学化学学院分析化学专业,讲师

1998.12-2001.12,东北师范大学化学学院分析化学专业,教授

2001.12-2014.05,东北师范大学化学学院分析化学专业,教授

2014.05-至今,东北师范大学环境学院环境科学专业,教授


开设课程和编写教材

本科生课程

环境仪器分析、绿色化学

研究生课程

高等环境化学、环境科学理论与工程技术环境科学与工程学术前沿

指导学生获得荣誉

孙英楠,吉林省优秀学位论文2019


主要学术兼职

中国多酸化学学术委员会委员


主要学术成就、奖励及荣誉

Elsevier中国高被引学者(2014-2020

全球顶尖前10科学家20212022

教育部首批新世纪优秀人次2004

吉林省长白山学者特聘教授2016

2010吉林省科技进步奖一等基于多酸的杂化催化剂的设计及其在环境催化中的应用吉林省人民政府第一完成人

2016获高等学校科学研究优秀成果奖自然科学二等:环境催化材料的设计及其在生物质转化和有机污染物控制中的应用,教育部,第一完成人


主要科研项目

2009. 01-2011. 12国家自然科学基金面上项目固体多酸非均相光催化反应机理研究项目负责人

2012.01-2015.12国家自然科学基金面上项目孔形貌和结构有序性控制合成基于多酸的杂化催化剂及其催化性能研究项目负责人

2013.01-2016.12国家自然科学基金面上项目,新型光纤光催化反应体系的设计及其降解水中典型环境激素的研究,项目负责人

2016.01-2019.12国家自然科学基金面上项目,磺酸官能化有机硅杂化纳米催化剂的形貌调控及其性能研究项目负责人

2021.01-2024.12国家自然科学基金面上项目,氮掺杂碳负载型Brønsted酸性离子液体的形貌调控与催化性能研究,项目负责人

2008.01-2010.12教育部科学技术研究重大项目有序介孔复合多酸光催化处理工业污水中有机污染物关键技术研究项目负责人

2014.10-2016.12吉林省人才开发资金集中资助人才项目,光纤光催化大规模处理石化废水关键技术,项目负责人

2014.10-2015.10吉林省环保厅项目光纤光催化反应器的设计及其削减空气中挥发性有机污染物新技术研究,项目负责人


代表性学术成果

代表性论文

[1] M. Ren, X. Y. Zhang, Y. Q. Liu, G. Yang, L. Qin, J. Q. Meng, Y. H. Guo*, Y. X.  Yang*, Interlayer palladium-single-atom-coordinated cyano-group-rich graphitic carbon nitride for enhanced photocatalytic hydrogen production performance, ACS Catal. 2022, 12, 5077−5093.

[2] X. Y. Zhang, Y. Q. Liu, M. Ren, G. Yang, L. Qin, Y. H. Guo*, J. Q. Meng*, Precise carbon doping regulation of porous graphitic carbon nitride nanosheets enables elevated photocatalytic oxidation performance towards emerging organic pollutants, Chem. Eng. J. 2022, 433, 134551.

[3] D. Y. Song*, X. F. Liu, S. Khan, C. Y. Zhang, Y. H. Guo*, Nitrogen-rich macroporous covalent triazine frameworks bearing sulfonic acid-based ionic liquids for microwave-assisted conversion of fructose to 5-hydroxymethylfurfural, Fuel, 2022, 327, 125230.

[4] Y. Q. Liu, M. Ren, X. Y. Zhang, G. Yang, L. Qin, J. Q. Meng*, Y. H. Guo*, Supramolecule self-assembly approach to direct Z-scheme TiO2/g-C3N4 heterojunctions for efficient photocatalytic degradation of emerging phenolic pollutants, Appl. Surf. Sci. 2022, 593, 153401.

[5] X. Y. Wang, J. Q. Meng, X. Y. Zhang, Y. Q. Liu, M. Ren, Y. X. Yang*, Y. H. Guo*, Controllable approach to carbon-deficient and oxygen-doped graphitic carbon nitride: robust photocatalyst against recalcitrant organic pollutants and the mechanism insight, Adv. Funct. Mater. 2021, 2010763.

[6] J. Q. Meng, X. Y. Wang, Y. Q. Liu, M. Ren, X. Y. Zhang, X. H. Ding, Y. H. Guo*, Y. X. Yang*, Acid-induced molecule self-assembly synthesis of Z-scheme WO3/g-C3N4 heterojunctions for robust photocatalysis against phenolic pollutants, Chem. Eng. J. 2021, 403, 126354.

[7] X. Y. Zhang, X. Y. Wang , J. Q. Meng , Y. Q. Liu , M. Ren, Y. H. Guo*, Y. X. Yang*, Robust Z-scheme g-C3N4/WO3 heterojunction photocatalysts with morphology control of WO3 for efficient degradation of phenolic pollutants, Sep. Purif. Technol. 2021, 255, 117693.

[8] Q. Q. Zhang, C. Y. Zhang, Q. Y. Wu, J. Y. Liu, D. Y. Song*, Y. H. Guo*, Sustainable production of biodiesel and transformation of glycerol to glycerol laurate esters over inner diameter-controlled sulfonic acid functionalized ethyl-bridged-organosilica nanotubes, Appl. Catal. A: Gen. 2021, 611, 117973.

[9] J. Y. Liu, C. Y. Zhang, D. Y. Song*, Y. H. Guo*, J. Y. Leng*, Efficient transformation of 5-hydroxymethylfurfural to ethyl levulinate over the Brønsted acidic ionic liquid functionalized dendritic fibrous nanosilica spheres, Micropor. Mesopor. Mater. 2021, 326, 111354.

[10] J. Q. Meng, X. Y. Zhang, Y. Q. Liu, M. Ren, Y. H. Guo*, X. Yang*, Y. X. Yang*, Engineering of graphitic carbon nitride with simultaneous potassium doping sites and nitrogen defects for notably enhanced photocatalytic oxidation performance, Sci. Total Environ. 2021, 796, 148946.

[11] Q. Q. Zhang, M. Ren, Y. Q. Liu, C. Y. Zhang, Y. H. Guo, D. Y. Song*, Fabrication of Brønsted acidic ionic liquids functionalized organosilica nanospheres for microwave-assisted fructose valorization, Sci. Total Environ. 2022, 818, 151761.

[12] D. Y. Song, J. Y. Liu, C. Y. Zhang, Y. H. Guo*, Design of Brønsted acidic ionic liquid functionalized mesoporous organosilicananospheres for efficient synthesis of ethyl levulinate and levulinic acid from 5-hydroxymethylfurfural, Catal. Sci. Technol. 2021, 11, 1827–1842.

[13] X. Y. Wang, L. Y. Li, J. Q. Meng, P. Y. Xia, Y. X. Yang*, Y. H. Guo*, Enhanced simulated sunlight photocatalytic reduction of an aqueous hexavalent chromium over hydroxyl-modified graphitic carbon nitride, Appl. Surf. Sci. 2020, 506, 144181.

[14] Y. Q. Liu, P. Y. Xia, L. Y. Li, X. Y. Wang, J. Q. Meng, Y. X. Yang*, Y. H. Guo*, In-situ route for the graphitized carbon/TiO2 composite photocatalysts with enhanced removal efficiency to emerging phenolic pollutants, Chin. J. Catal. 2020, 41, 1378–1392.

[15] Y. N. Sun, Q. Q. Zhang, C. Y. Zhang, J. Y. Liu, Y. H. Guo*, D. Y. Song*, In situ approach to dendritic fibrous nitrogen-doped carbon nanospheres functionalized by Brønsted acidic ionic liquid and their excellent esterification catalytic performance, ACS Sustainable Chem. Eng. 2019, 7, 15114−15126.

[16] J. Q. Meng, X. Y. Wang, X. Yang, A. Hu, Y. H. Guo*, Y. X. Yang*, Enhanced gas-phase photocatalytic removal of aromatics over direct Z-scheme-dictated H3PW12O40/g-C3N4 film-coated optical fibers, Appl. Catal. B: Environ. 2019, 251, 168−180.

[17] D. Y. Song, P. P. Zhang, Y. N. Sun, Q. Q. Zhang, Y. H. Guo*, Design of periodic mesoporous sulfonic acid and titanium bi-functionalized alkyl-bridged organosilica hybrid catalysts for efficient synthesis of ethyl levulinate, Micropor. Mesopor. Mater. 2019, 279, 352-363.

[18] Q. Q. Zhang, C. Y. Zhang, Y. N. Sun, Y. H. Guo*, D. Y. Song*, Hierarchically porous Brfnsted acidic ionic liquid functionalized nitrogen-doped carbons for pyrolysis biofuel upgrading via esterification of acetic acid with high boiling point alcohols, Appl. Catal. A: Gen. 2019, 574, 10-24.

[19] X. Y. Wang, J. Q. Meng, X. Yang, A. Hu, Y. X. Yang*, Y. H. Guo*, Fabrication of a perylene tetracarboxylic diimide-graphitic carbon nitride heterojunction photocatalyst for efficient degradation of aqueous organic pollutants, ACS Appl. Mater. Interfaces 2019, 11, 588-602.

[20] P. P. Zhang, Y. N. Sun, Q. Q. Zhang, Y. H. Guo*, D. Y. Song*, Upgrading of pyrolysis biofuel via esterification of acetic acid with benzyl alcohol catalyzed by Brfnsted acidic ionic liquid functionalized ethyl-bridged organosilica hollow nanospheres, Fuel 2018, 228, 175-186.

[21] D. Y. Song, Q. Q. Zhang, Y. N. Sun, P. P. Zhang, Y. H. Guo*, J. L. Hu*, Design of ordered mesoporous sulfonic acid functionalized ZrO2/organosilica bifunctional catalysts for direct catalytic conversion of glucose to ethyl levulinate, ChemCatChem 2018, 10, 4953-4965.

[22] Y. N. Sun, Q. Q. Zhang, P. P. Zhang, D. Y. Song*, Y. H. Guo*, Nitrogen-doped carbon-based acidic ionic liquid hollow nanospheres for efficient and selective conversion of fructose to 5-ethoxymethylfurfural and ethyl levulinate, ACS Sustainable Chem. Eng. 2018, 6, 6771−6782.

[23] S. An, D. Y. Song, Y. N. Sun, Q. Q. Zhang, P. P. Zhang, Y. H. Guo*, Conversion of furfuryl alcohol to levulinic acid in aqueous solution catalyzed by shell thickness-controlled arenesulfonic acid-functionalized ethyl-bridged organosilica hollow nanospheres, ACS Sustainable Chem. Eng. 2018, 6, 3113−3123.

[24] Y. N. Sun, J. L. Hu, S. An, Q. Q. Zhang, Y. H. Guo*, D. Y. Song*, Q. K. Shang*, Selective esterification of glycerol with acetic acid or lauric acid over rod-like carbon-based sulfonic acid functionalized ionic liquids, Fuel 2017, 207, 136-145.

[25] D. Y. Song, Y. N. Sun, Q. Q. Zhang, P. P. Zhang, Y. H. Guo*, J. Y. Leng*, Fabrication of propylsulfonic acid functionalized SiO2 core/PMO shell structured PrSO3H-SiO2@Si(R)Si nanospheres for the effective conversion of D-fructose into ethyl levulinate, Appl. Catal. A: Gen. 2017, 546, 36-46.



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