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王旭裕 副教授

环境与化学工程学院

通讯地址:长山校区环化学院625室

个人邮箱:wangxy@just.edu.cn

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办公地点:长山校区环化楼625室

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  • 本研究小组经费充足,设备齐全。

    本人招收化学、环境、材料、能源相关专业研究生,每年1-3名

    本人至今带了三届研究生,第一届毕业的研究生发表2篇1区论文并顺利升入博士;第二届毕业的三位研究生每人至少发表1篇1区论文,其中一人考入211博士,今年6月份毕业的三位研究生,均进入大型上市公司及国企工作。想读博士的学生可以推荐到国内外知名高校继续深造。每位研究生我都会尽心指导,同时本人常年与企业有合作,毕业可推荐工作。

    请发邮件至邮箱wangxy@just.edu.cn,有任何问题请直接联系本人咨询。

    今年目前还有两个招生名额,有兴趣的发邮件与本人联系。

    本科生如果对本人课题感兴趣,也可发邮件与本人联系,每年会招1-2名本科生进组学习。

    更新于20250903

  • 环境催化-VOCs治理

    低碳烷烃的资源化应用

    密度泛函理论计算在催化中的应用


    一作及通讯作者论文:


    2026年

    [23]Rui Chen, Rui Liao, Peiting Jiang, Yuqi Wang, Yupeng Zhang, Tiange Huang Xuyu Wang* , Hongbing Ji*,  Vanadium species facilitates low-temperature activation of CH bonds and effectively suppressing side reactions for ODHP, Chem. Eng. Sci, 2026, 320, 122321


    2025年

    [22]Rui Chen , Xue Han , Yixuan Yang, Xupeng Yang, Yuqi Wang, Yupeng ZhangTiange Huang, Jie Wei, Junjie Ding, Xuyu Wang* , Hongbing Ji*, Fuel, 2025, 396,135229

    [21] Zhijian Fu, Jiayu Ying, Xuri Yang, Manyu Zhang, Zijian Zhang, Rui Chen, Chenghan Yang, Xuyu Wang*, Yubo Zhou, Hongbing Ji, Transition metal-doped modification of lattice defects in formaldehyde catalysts Controlling the specific surface area and mass transfer, Appl. Surf. Sci., 2025, 681, 161319

    [20]Chennan Zhang, Yanbo Shi, Rui Liu, Hong Li, Xingwei Cai, Xuyu Wang*, Shu-Yang Chen*, Shaojun Zheng*, Peipei Cen, Lei Chen*, Syntheses, structures and magnetisms of dimethyl phosphate-bridged dinuclear lanthanide complexes with pentadentate macrocyclic ligand, Journal of Molecular Structure, 2025, 1321, 139668


    2024年

    [19]Zijian Zhang, Yuxuan Ou, Jiayu Ying, Zhijian Fu, Yunjie Zong, Boyi Lang, Jie Wei, Yubo Zhou, Chenghan Yang, Xuyu Wang*, Hongbing Ji*Mn/CeO2 contains enriched surface Lewis acid sites and pore structures accelerated catalytic oxidation of propane at low temperature, Fuel, 2024, 378,132870

    [18]Manyu Zhang, Zhijian Fu, Hui Chen, Jia Yu, Liwen Zhang,Chenghan Yang, Yubo Zhou, Yingjie Hua, Xuyu Wang*, Hongbing Ji*, Highly exposed metal atomic active sites in Al2O3/CoNC: modify reaction pathways by coupling oxygen species, J. Colloid Interf. Sci., 2024, 676, 859-870

    [17]Juanjuan Gong, Manyu Zhang, Jing Li, Xuyu Wang*, Yubo Zhou, Chenghan Yang, Yingjie Hua*, Chongtai Wang, Aihua Yuan*, Lattice-confined Ag over MnCoLDH accelerated catalytic oxidation of formaldehyde at ambient temperature: The novel pathway with different oxygen species, Appl. Surf. Sci., 2024, 669, 160513

    [16]Yixiang Zhu, Rui Chen, Yixuan Yang, Yu Liu, Xuyu Wang*, Hongbing Ji*, Low temperature catalytic activity of molybdenum promoted two-dimensional boron nitride in propane oxidative dehydrogenation reaction, Chem. Eng. J., 2024, 490, 151364

    [15]Xue Han, Yun Yang, Rui Chen, Jiaqi Zhou, Xupeng Yang, Xuyu Wang*, Hongbing Ji*, One-dimensional Ga2O3-Al2O3 nanofibers with unsaturated coordination Ga: Catalytic dehydrogenation of propane under CO2 atmosphere with excellent stability, J. Colloid Interf. Sci., 2024, 666: 76-87

    [14]莫锦洪,韩雪,朱毅翔,李菁,王旭裕*, 纪红兵*, Pt-Ga/CeO2-ZrO2-Al2O3脱氢裂解双功能催化剂用于正丁烷催化制烯烃研究. CIESC Journal, 2024, 75(5), 1855-1869

    [13]Xuyu Wang*, Jing Li, Jiajun Xing, Manyu Zhang, Rui Liao, Chongtai Wang, Yingjie Hua, Hongbing Ji*, Novel synergistically effects of palladium-iron bimetal and manganese carbonate carrier for catalytic oxidation of formaldehyde at room temperature, J. Colloid Interf. Sci., 2024, 656: 104-1151

    [12]Shuying Gao, Sixia Liu, Dongguang Wang, Chengzhang Zhu*, Weilong Shi, Hengcong Tao, Xuyu Wang*, Fu Yang*, Boosting carrier separation over ultrathin g-C3N4 by f-ionic intercalation for improved photocatalytic activity, Appl. Surf. Sci., 2024, 644: 158808


    2023年

    [11]Jingwei Li, Xuyu Wang*, Hongli Fang, Xiaomin Guo, Rongfu Zhou, Cong Wang, Jian Li, Mohamed Nawfal Ghazzal*, Zebao Rui*, Unraveling the role of surface and interfacial defects for hydrogen production to construct an all-in-one broken-gap photocatalyst.J. Mater. Chem. A, 2023,11: 25639-25649

    [10]李凯旋,谭伟,张曼玉,徐志豪,王旭裕*, 纪红兵*, 富含零价钴活性位点的钴氮碳/活性炭设计及甲醛催化氧化应用研究. CIESC Journal, 2023, 74(8): 3342-3352

    [9]Xuyu Wang*, Zhihao Xu, Jing Li, Manyu Zhang, Kaixuan Li, Yuying Zheng, Hongbing Ji*, Mn/HZSM-5 catalyst with high content of Mn4+ and surface hydroxyls for formaldehyde oxidation at room temperature. Appl. Surf. Sci., 2023; 637: 1579172

    [8]Xuyu Wang*, Fu Yang, Jianjian Yi, Jiejing Kong, Juanjuan Gong, Aihua Yuan, Zebao Rui, Hongbing Ji *. Constructing synergy of sufficient hydroxyl and oxygen in PtNi/Al2O3 enables room-temperature catalytic HCHO oxidation. AIChE J., 2023; 69: e17895.

    [7]Jie Zhou, Hao Liu, Chao Xiong, Peng Hu, Hao Wang, XuyuWang*, Hongbing Ji *. Potassium-promoted Pt-In bimetallic clusters encapsulated in silicalite-1 zeolite for efficient propane dehydrogenation. Chem. Eng. J., 2023; 455: 139794

    [6]Juanjuan Gong, Xuyu Wang*, Haibo Wu, Xuexue Dong, Jing Li, Fu Yang, Aihua Yuan*, Hongbing Ji. MnCo-Layered Double Hydroxides nanosheets supported Pd nanoparticles for complete catalytic oxidation of formaldehyde at room temperature. Appl. Surf. Sci., 2023; 606: 1547021


    2022年

    [5]Lu Yutong, Wuxiang Zhang, Fu Yang*, Xuexue Dong, Chengzhang Zhu,Xuyu Wang*, Lulu Li, Chao Yu, Aihua Yuan. Tailored oxygen defect coupling composition engineering CoxMn2O4 spinel hollow nanofiber enables improved Bisphenol A catalytic degradation. Sep. Purif. Technol., 2022, 282: 120051


    2021年前

    [4]Xuyu Wang, Xuelin Zou, Zebao Rui, Yongqing Wang, Hongbing Ji*. Highly dispersed and active Pd nanoparticles over titania support through engineering oxygen vacancies and their anchoring effect. AIChE J., 2020; 66: e16288

    [3]Xuyu Wang, Zebao Rui*, Hongbing Ji*. DFT study of formaldehyde oxidation on silver cluster by active oxygen and hydroxyl groups: mechanism comparison and synergic. Catal. Today, 2020; 347: 124-133

    [2]Xuyu Wang, Zebao Rui*, Yingqing Zeng, Hongbing Ji*, Zheng Du, Qinglei Rao. Synergetic effect of oxygen vacancy and Pd site on the interaction between Pd/anatase TiO2 (101) and formaldehyde: a density functional theory study. Catal. Today, 2017; 297: 151-158

    [1]Xuyu Wang, Sai Wang, Xueqiong Yin*, Junhua Chen, Li Zhu. Activated carbon preparation from cassava residue using a two-step KOH activation: preparation, micropore structure and adsorption capacity. J. Biobased. Mater. Bio., 2014; 8: 35-42.


    • 专利成果

      授权专利

      1.纪红兵;王旭裕;芮泽宝;一种用于热催化甲醛降解得钯基催化剂,ZL 20181568097.0

    • 论文著作

      论文:

      [1]Yutong Lu, Fu Yang *Wang X Y*, et al. Tailored oxygen defect coupling composition engineering CoxMn2O4 spinel hollow nanofiber enables improved Bisphenol A catalytic degradation. Sep. Purif. Technol., 2022; 282:120051

      [2] Gao S Y#, Wang X Y#, Yang F*, Kong Y*, et al. Engineering carbon-defects on ultrathin g-C3N4 allows one-pot output and dramatically boosts photoredox catalytic activity. Appl. Catal.-B Environ., 2021; 295:120272

      [3]Wang X Y, Rui Z B, Ji H B*, et al. Highly dispersed and active Pd nanoparticles over titania support through engineering oxygen vacancies and their anchoring effect. AIChE J., 2020; 66:e16288

      [4]Wang X Y, Rui Z B*, Ji H B*. DFT study of formaldehyde oxidation on silver cluster by active oxygen and hydroxyl groups: mechanism comparison and synergic. Catal. Today, 2020; 347:124-133

      [5]Huo Ying#, Wang X Y#, Rui Z B*, et al. Identification of the nearby hydroxyls’ in promoting HCHO oxidation over a Pt catalyst. Ind. Eng. Chem. Res., 2018; 57:8183-8189

      [6]Wang X Y, Rui Z B*, Ji H B*, et al. Synergetic effect of oxygen vacancy and Pd site on the interaction between Pd/anatase TiO2 (101) and formaldehyde: a density functional theory study. Catal. Today, 2017; 297:151-158

      [7] Wang X Y, Wang S, Yin X Q, et al. Activated carbon preparation from cassava residue using a two-step KOH activation: preparation, micropore structure and adsorption capacity. J. Biobased. Mater. Bio., 2014; 8:35-42.


    • 专利成果

      授权专利

      1.纪红兵;王旭裕;芮泽宝;一种用于热催化甲醛降解得钯基催化剂,ZL 20181568097.0

    • 论文著作

      论文:

      [1]Yutong Lu, Fu Yang *Wang X Y*, et al. Tailored oxygen defect coupling composition engineering CoxMn2O4 spinel hollow nanofiber enables improved Bisphenol A catalytic degradation. Sep. Purif. Technol., 2022; 282:120051

      [2] Gao S Y#, Wang X Y#, Yang F*, Kong Y*, et al. Engineering carbon-defects on ultrathin g-C3N4 allows one-pot output and dramatically boosts photoredox catalytic activity. Appl. Catal.-B Environ., 2021; 295:120272

      [3]Wang X Y, Rui Z B, Ji H B*, et al. Highly dispersed and active Pd nanoparticles over titania support through engineering oxygen vacancies and their anchoring effect. AIChE J., 2020; 66:e16288

      [4]Wang X Y, Rui Z B*, Ji H B*. DFT study of formaldehyde oxidation on silver cluster by active oxygen and hydroxyl groups: mechanism comparison and synergic. Catal. Today, 2020; 347:124-133

      [5]Huo Ying#, Wang X Y#, Rui Z B*, et al. Identification of the nearby hydroxyls’ in promoting HCHO oxidation over a Pt catalyst. Ind. Eng. Chem. Res., 2018; 57:8183-8189

      [6]Wang X Y, Rui Z B*, Ji H B*, et al. Synergetic effect of oxygen vacancy and Pd site on the interaction between Pd/anatase TiO2 (101) and formaldehyde: a density functional theory study. Catal. Today, 2017; 297:151-158

      [7] Wang X Y, Wang S, Yin X Q, et al. Activated carbon preparation from cassava residue using a two-step KOH activation: preparation, micropore structure and adsorption capacity. J. Biobased. Mater. Bio., 2014; 8:35-42.


    • 专利成果

      1.纪红兵;王旭裕;芮泽宝;一种用于热催化甲醛降解得钯基催化剂,ZL 20181568097.0

    • 论文著作

      [1]Yutong Lu, Fu Yang *Wang X Y*, et al. Tailored oxygen defect coupling composition engineering CoxMn2O4 spinel hollow nanofiber enables improved Bisphenol A catalytic degradation. Sep. Purif. Technol., 2022; 282:120051

      [2] Gao S Y#, Wang X Y#, Yang F*, Kong Y*, et al. Engineering carbon-defects on ultrathin g-C3N4 allows one-pot output and dramatically boosts photoredox catalytic activity. Appl. Catal.-B Environ., 2021; 295:120272

      [3]Wang X Y, Rui Z B, Ji H B*, et al. Highly dispersed and active Pd nanoparticles over titania support through engineering oxygen vacancies and their anchoring effect. AIChE J., 2020; 66:e16288

      [4]Wang X Y, Rui Z B*, Ji H B*. DFT study of formaldehyde oxidation on silver cluster by active oxygen and hydroxyl groups: mechanism comparison and synergic. Catal. Today, 2020; 347:124-133

      [5]Huo Ying#, Wang X Y#, Rui Z B*, et al. Identification of the nearby hydroxyls’ in promoting HCHO oxidation over a Pt catalyst. Ind. Eng. Chem. Res., 2018; 57:8183-8189

      [6]Wang X Y, Rui Z B*, Ji H B*, et al. Synergetic effect of oxygen vacancy and Pd site on the interaction between Pd/anatase TiO2 (101) and formaldehyde: a density functional theory study. Catal. Today, 2017; 297:151-158

      [7] Wang X Y, Wang S, Yin X Q, et al. Activated carbon preparation from cassava residue using a two-step KOH activation: preparation, micropore structure and adsorption capacity. J. Biobased. Mater. Bio., 2014; 8:35-42.


  • 2014-2018 中山大学 材料加工工程 工学博士

    2011-2014 海南大学 化学工程 工程硕士

    2007-2011 海南师范大学 应用化学 理学学士


  • 本科生课程:工程化学,无机化学实验

    研究生课程:现代化工技术