个人简介
个人简介
职 称
教授
√博导 √硕导
学院及专业
机械与车辆学院制造工程系
办公地址
北京理工大学1号教学楼427-1
邮 编
100081
办公电话
010-68915786
邮 件
xueqiangzhangme@bit.edu.cn
教授
√博导 √硕导
学院及专业
机械与车辆学院制造工程系
办公地址
北京理工大学1号教学楼427-1
邮 编
100081
办公电话
010-68915786
邮 件
xueqiangzhangme@bit.edu.cn
研究领域和方向
代表论文:
[1] R. Lu†, X. Zhang†, Z. Zhao, M. Li*, X. Zhang*, Wettability Control in Electrocatalytic CO2 Reduction: Effects, Modulations and Mechanisms, 2023
[2] Z. Su†, C. Zhang, X. Zhang, X. Zhang*, Gas/Solid, Liquid/Solid and Gas/Liquid Interfaces Probed Using Ambient Pressure X-ray Photoelectron Spectroscopy, 2023
[3] S. Xia*, Z. Yuan, Y. Meng, G. Pan, C. Zhang, Z. Ni, X. Zhang*, Defect Engineering in Photocatalysis: Dual-vacancy ZnIn2S4-VZn+S and its Applications in Nitrogen Reduction Reactions, 2023
[4] R. Lu, X. Zhang, S. Li, Y. Wang, T. Song, T. Zhu,*, H. Zhang, R. Zheng, X. Zhang*, Chemical and Electronic Properties at the Pt/In2O3 Interface under CO2 Hydrogenation Conditions, ChemCatChem 2023, e202201435
[5] X. Zhang,*† A. Rowberg,*† N. Govindarajan, X. He, Hydrogen Bond Network at the H2O/Solid Interface, Book Chapter, Encyclopedia of Solid-Liquid Interfaces, Elsevier 2022, in press
[6] X. Zhang*†, B. C. Wood*†, T. A. Pham, T. Ogitsu, J. Kapaldo, S. Ptasinska*, “Kinetically versus Thermodynamically Controlled Factors Governing Elementary Pathways of GaP(111) Surface Oxidation”, J. Power Sources 2023, 560, 232663
[7] X. Zhang*, K. Goodman, Q. Yuan, X. Tong, T. Cheng*, M. Blum*, “Pd-promoted Room-Temperature Reduction of In2O3 in CO2 Hydrogenation Reaction and Reduction-Driven Structural Dynamics”, 2023
[8] X. Zhang, A. Kirilin, S. Rozeveld, J. Kang, G. Pollefeyt, D. Yancey, A. Chojecki, B. Vanchura, M. Blum, “Support Effect and Surface Reconstruction in In2O3/m-ZrO2 Catalyzed CO2 Hydrogenation”, ACS Catal., 2022, 12, 3868-3880
[9] S. Xia*, L. Fang, Y. Meng, X. Zhang*, G. Pan, Z. Ni, C. Yang,* “Water-gas Shift Reaction Catalyzed by Layered Double Hydroxides Supported Au-Ni/Cu/Pt Bimetallic Alloys”, Applied Catalysis B: Environmental, 2020, 272, 118949
[10] X. Zhang, S. Ptasinska, “Dissociative Adsorption of H2O onto a Pt Thin Film in Direct Contact with GaN (0001): Effect of Electronic Communications between the Catalyst and Support”, Appl. Surf. Sci. 2020, 516, 146127
[11] X. Zhang†*, T. A. Pham†*, B. C. Wood, O. Tadashi, S. Ptasinska*, “Modulation of Oxygen Bridges on OH-terminated InP (001) Surface under Near Ambient Conditions”, Journal of Physical Chemistry C, 2020, 124, 3196
[12] G. Zhang†, X. Zhang†*, Y. Meng, X. Zhang, Z. Ni, S. Xia* “Layered Double Hydroxides Based Photocatalysts and Their Applications in Visible-light Photodegradation of Organic Pollutants: A Review”, Review article, Chemical Engineering Journal, 2020, 392, 123684
[13] X. Zhang†*, O. Tadashi†*, B. C. Wood,* T. A. Pham, S. Ptasinska, “Oxidation Induced Polymerization of InP Surface and Implications for Optoelectronic Applications”, Journal of Physical Chemistry C, 2019, 123, 30893
[14] X. Zhang*, “Evolution of Atomistic Topology at H2O/GaSb(100) Interface under Ambient Conditions and GaSb Surface Passivation”, Journal of Physical Chemistry C, 2019, 123, 20916
[15] X. Zhang, G. Kumari, J. Heo, P. K. Jain, “In-situ Formation of Catalytically Active Graphene in Ethylene Photo-epoxidation”, Nature Communications, 2018, 9, 3056.
[16] X. Zhang, Y. S. Chen, P. Kamat, S. Ptasinska, “Observation of the Catalytically Active Phase of Co3O4 OER Catalyst under Operando Conditions”, Journal of Physical Chemistry C, 2018, 122, 13894
[17] T. A. Pham†*, X. Zhang†*, B. C. Wood*, D. Prendergast*, S. Ptasinska*, T. Ogitsu*, “Integrating Ab Initio Simulations and X-ray Photoelectron Spectroscopy: Toward A Realistic Description of Oxidized Solid/Liquid Interfaces”, Perspective article, Journal of Physical Chemistry Letters (front cover), 2018, 9, 194
[18] X. Zhang†, C. Wang†, W. Ji, S. Ptasinska, “Evolution of CH3NO2/Si Interfacial Chemistry under Reaction Conditions: a Combined Experimental and Theoretical Study”, Chem. Comm., 2017, 53, 3342
[19] T. Jiang†, X. Zhang†, S. Vishwanath†, X. Mu, V. Kanzyuba, S. Ptasinska, D. Go, H. G. Xing, T. Luo, “Covalent Bonding Modulated Graphene–metal Interfacial Thermal Transport”, Nanoscale, 2016, 8, 10993
[20] X. Zhang, S. Ptasinska, “Electronic and Chemical Structure of the H2O/GaN(0001) Interface under Ambient Conditions”, Scientific Reports, 2016, 6, 24848
[21] X. Zhang, S. Ptasinska, “High pressure Induced Pseudo-Oxidation of Copper Surface by Carbon Monoxide”, ChemCatChem, 2016, 8, 1632 (back cover)
[22] X. Zhang, S. Ptasinska, “Heterogeneous Oxygen-Containing Species Formed via Oxygen or Water Dissociative Adsorption on a Gallium Phosphide Surface”, Topics in Catalysis, 2016, 59, 564
[23] X. Zhang, S. Ptasinska, “Evolution of Surface-Assisted Oxidation of GaAs (100) by Gas-Phase N2O, NO, and O2 under Near-Ambient Pressure Conditions”, Journal of Physical Chemistry C, 2015, 119, 262
[24] X. Zhang, S. Ptasinska, “Distinct and Dramatic Water Dissociation on GaP(111) Tracked by Near-Ambient Pressure X-ray Photoelectron Spectroscopy”, Physical Chemistry Chemical Physics, 2015, 17, 3909
研究项目:
1.国家自然科学基金青年基金(在研,主持);
2.国家高层次青年人才项目(在研,主持);北京理工大学高层次人才启动经费(在研,主持)
3.(浙江大学)清洁能源国家实验室开放基金(在研,主持);
4.科技部重点研发计划子课题:非均质材料飞秒激光制造技术与装备(课题一:飞秒激光加工的多尺度连续观测及非均质材料加工机理,在研,主持)
5.某部委**项目(在研,子课题负责人)
6.部委级某预研项目(参与)
[1] R. Lu†, X. Zhang†, Z. Zhao, M. Li*, X. Zhang*, Wettability Control in Electrocatalytic CO2 Reduction: Effects, Modulations and Mechanisms, 2023
[2] Z. Su†, C. Zhang, X. Zhang, X. Zhang*, Gas/Solid, Liquid/Solid and Gas/Liquid Interfaces Probed Using Ambient Pressure X-ray Photoelectron Spectroscopy, 2023
[3] S. Xia*, Z. Yuan, Y. Meng, G. Pan, C. Zhang, Z. Ni, X. Zhang*, Defect Engineering in Photocatalysis: Dual-vacancy ZnIn2S4-VZn+S and its Applications in Nitrogen Reduction Reactions, 2023
[4] R. Lu, X. Zhang, S. Li, Y. Wang, T. Song, T. Zhu,*, H. Zhang, R. Zheng, X. Zhang*, Chemical and Electronic Properties at the Pt/In2O3 Interface under CO2 Hydrogenation Conditions, ChemCatChem 2023, e202201435
[5] X. Zhang,*† A. Rowberg,*† N. Govindarajan, X. He, Hydrogen Bond Network at the H2O/Solid Interface, Book Chapter, Encyclopedia of Solid-Liquid Interfaces, Elsevier 2022, in press
[6] X. Zhang*†, B. C. Wood*†, T. A. Pham, T. Ogitsu, J. Kapaldo, S. Ptasinska*, “Kinetically versus Thermodynamically Controlled Factors Governing Elementary Pathways of GaP(111) Surface Oxidation”, J. Power Sources 2023, 560, 232663
[7] X. Zhang*, K. Goodman, Q. Yuan, X. Tong, T. Cheng*, M. Blum*, “Pd-promoted Room-Temperature Reduction of In2O3 in CO2 Hydrogenation Reaction and Reduction-Driven Structural Dynamics”, 2023
[8] X. Zhang, A. Kirilin, S. Rozeveld, J. Kang, G. Pollefeyt, D. Yancey, A. Chojecki, B. Vanchura, M. Blum, “Support Effect and Surface Reconstruction in In2O3/m-ZrO2 Catalyzed CO2 Hydrogenation”, ACS Catal., 2022, 12, 3868-3880
[9] S. Xia*, L. Fang, Y. Meng, X. Zhang*, G. Pan, Z. Ni, C. Yang,* “Water-gas Shift Reaction Catalyzed by Layered Double Hydroxides Supported Au-Ni/Cu/Pt Bimetallic Alloys”, Applied Catalysis B: Environmental, 2020, 272, 118949
[10] X. Zhang, S. Ptasinska, “Dissociative Adsorption of H2O onto a Pt Thin Film in Direct Contact with GaN (0001): Effect of Electronic Communications between the Catalyst and Support”, Appl. Surf. Sci. 2020, 516, 146127
[11] X. Zhang†*, T. A. Pham†*, B. C. Wood, O. Tadashi, S. Ptasinska*, “Modulation of Oxygen Bridges on OH-terminated InP (001) Surface under Near Ambient Conditions”, Journal of Physical Chemistry C, 2020, 124, 3196
[12] G. Zhang†, X. Zhang†*, Y. Meng, X. Zhang, Z. Ni, S. Xia* “Layered Double Hydroxides Based Photocatalysts and Their Applications in Visible-light Photodegradation of Organic Pollutants: A Review”, Review article, Chemical Engineering Journal, 2020, 392, 123684
[13] X. Zhang†*, O. Tadashi†*, B. C. Wood,* T. A. Pham, S. Ptasinska, “Oxidation Induced Polymerization of InP Surface and Implications for Optoelectronic Applications”, Journal of Physical Chemistry C, 2019, 123, 30893
[14] X. Zhang*, “Evolution of Atomistic Topology at H2O/GaSb(100) Interface under Ambient Conditions and GaSb Surface Passivation”, Journal of Physical Chemistry C, 2019, 123, 20916
[15] X. Zhang, G. Kumari, J. Heo, P. K. Jain, “In-situ Formation of Catalytically Active Graphene in Ethylene Photo-epoxidation”, Nature Communications, 2018, 9, 3056.
[16] X. Zhang, Y. S. Chen, P. Kamat, S. Ptasinska, “Observation of the Catalytically Active Phase of Co3O4 OER Catalyst under Operando Conditions”, Journal of Physical Chemistry C, 2018, 122, 13894
[17] T. A. Pham†*, X. Zhang†*, B. C. Wood*, D. Prendergast*, S. Ptasinska*, T. Ogitsu*, “Integrating Ab Initio Simulations and X-ray Photoelectron Spectroscopy: Toward A Realistic Description of Oxidized Solid/Liquid Interfaces”, Perspective article, Journal of Physical Chemistry Letters (front cover), 2018, 9, 194
[18] X. Zhang†, C. Wang†, W. Ji, S. Ptasinska, “Evolution of CH3NO2/Si Interfacial Chemistry under Reaction Conditions: a Combined Experimental and Theoretical Study”, Chem. Comm., 2017, 53, 3342
[19] T. Jiang†, X. Zhang†, S. Vishwanath†, X. Mu, V. Kanzyuba, S. Ptasinska, D. Go, H. G. Xing, T. Luo, “Covalent Bonding Modulated Graphene–metal Interfacial Thermal Transport”, Nanoscale, 2016, 8, 10993
[20] X. Zhang, S. Ptasinska, “Electronic and Chemical Structure of the H2O/GaN(0001) Interface under Ambient Conditions”, Scientific Reports, 2016, 6, 24848
[21] X. Zhang, S. Ptasinska, “High pressure Induced Pseudo-Oxidation of Copper Surface by Carbon Monoxide”, ChemCatChem, 2016, 8, 1632 (back cover)
[22] X. Zhang, S. Ptasinska, “Heterogeneous Oxygen-Containing Species Formed via Oxygen or Water Dissociative Adsorption on a Gallium Phosphide Surface”, Topics in Catalysis, 2016, 59, 564
[23] X. Zhang, S. Ptasinska, “Evolution of Surface-Assisted Oxidation of GaAs (100) by Gas-Phase N2O, NO, and O2 under Near-Ambient Pressure Conditions”, Journal of Physical Chemistry C, 2015, 119, 262
[24] X. Zhang, S. Ptasinska, “Distinct and Dramatic Water Dissociation on GaP(111) Tracked by Near-Ambient Pressure X-ray Photoelectron Spectroscopy”, Physical Chemistry Chemical Physics, 2015, 17, 3909
研究项目:
1.国家自然科学基金青年基金(在研,主持);
2.国家高层次青年人才项目(在研,主持);北京理工大学高层次人才启动经费(在研,主持)
3.(浙江大学)清洁能源国家实验室开放基金(在研,主持);
4.科技部重点研发计划子课题:非均质材料飞秒激光制造技术与装备(课题一:飞秒激光加工的多尺度连续观测及非均质材料加工机理,在研,主持)
5.某部委**项目(在研,子课题负责人)
6.部委级某预研项目(参与)
教育背景
主要从事界面(气固、液固、固固)物理化学现象研究。通过对原位光谱仪器和实验方法的应用拓展,特别是高时空分辨光电子能谱和振动光谱(红外、拉曼光谱),探索超快激光-材料作用过程中光子-电子-声子相互作用的物理机制及材料化学键断裂、重构等化学反应机制对材料成形成性的影响规律,解决涉及超快激光微纳制造的国家重大需求领域基础前沿问题;探索光-物质、气固、液固界面物理化学和电子结构及涉及的超快过程。
工作履历
主要从事界面(气固、液固、固固)物理化学现象研究。通过对原位光谱仪器和实验方法的应用拓展,特别是高时空分辨光电子能谱和振动光谱(红外、拉曼光谱),探索超快激光-材料作用过程中光子-电子-声子相互作用的物理机制及材料化学键断裂、重构等化学反应机制对材料成形成性的影响规律,解决涉及超快激光微纳制造的国家重大需求领域基础前沿问题;探索光-物质、气固、液固界面物理化学和电子结构及涉及的超快过程。
研究成果
Infomat杂志青年编委;中国激光“前沿激光制造”子刊首届青年编委;Frontiers in Catalysis杂志编委;Materials杂志客座主题编辑
指纹图谱
深入其中 Xueqiang Zhang 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
- 1 相似简介
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Femtosecond laser-fabricated defect-rich PtRe alloy clusters for enhanced alkaline hydrogen evolution
Zhang, X., Xiong, J., Sun, Z., Lu, R., Su, Z., Zhang, C., Zhu, Q., Yuan, S., Jiang, L., Xia, S., Sun, L., Wang, X., Yang, C. & Zhang, X., 15 3月 2026, 在: Chemical Engineering Journal. 532, 174149.科研成果: 期刊稿件 › 文章 › 同行评审
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Single-shot multi-frame real-time imaging using discrete supercontinuum
Zhang, C., Guo, B., Ye, M., Li, X., Tan, Y., Zhang, T., Zhang, X. & Jiang, L., 26 1月 2026, 在: Optics Express. 34, 2, 页码 3288-3299 12 页码科研成果: 期刊稿件 › 文章 › 同行评审
开放访问 -
飞秒激光液相烧蚀的超快观测展望(特邀)
Zikang, S., Shilong, Y., Xianglong, L. & Xueqiang, Z., 2月 2024, 在: Zhongguo Jiguang/Chinese Journal of Lasers. 51, 4科研成果: 期刊稿件 › 文章 › 同行评审
开放访问3 !!Link opens in a new tab 引用 (Scopus) -
激光加工碳纤维增强复合材料及其在 航空航天领域应用(特邀)
Xin, L., Qimeng, S., Xueqiang, Z., Shaoqian, W. & Kaihu, Z., 2月 2024, 在: Zhongguo Jiguang/Chinese Journal of Lasers. 51, 4科研成果: 期刊稿件 › 文章 › 同行评审
开放访问12 !!Link opens in a new tab 引用 (Scopus) -
Experimental probe into the femtosecond laser ablation thresholds in carbon fiber reinforced polymer and assessment of the measurement theories
Zhao, J., Ji, P., Lin, G., Li, X. & Zhang, X., 8月 2023, 在: Polymer Composites. 44, 8, 页码 5232-5246 15 页码科研成果: 期刊稿件 › 文章 › 同行评审
14 !!Link opens in a new tab 引用 (Scopus)