导师科研 情况简介
| 学术方向: 金属材料功能化应用;钛基高熵合金设计、连接及分子动力学模拟。 科研能力: 主要研究方向为金属材料功能化应用;钛基高熵合金设计、连接及分子动力学模拟。目前共发表研究论文13篇。其中以第一作者发表论文7篇,包括:国际能源领域顶尖期刊Nano Energy、材料界面领域国际知名期刊ACS Applied Materials & Interfaces、自然指数期刊Journal of Physical Chemistry Letters。基于Google学术查询,被引用次数为247次(单篇被引用次数大于80次的论文为2篇)。以非第一作者发表论文6篇(包含1篇共同一作),被引用次数为71次。此外,于全国催化学术会议、中国颗粒学会第十一届学术年会获优秀墙报奖。 科研项目: (1) 《中国-乌克兰材料连接与先进制造“一带一路”联合实验室建设与联合研究》国家重点研发计划子任务《大型钛合金结构焊接制造形性一体化基础理论》,80万元。 (2) 《中国-乌克兰材料连接与先进制造“一带一路”联合实验室》联合实验室专项《废弃焊料的非金属掺杂钛基合金薄膜修饰及功能化应用》,20万元。 (3) 《面向智能焊接的多场耦合物理模型构建与关键技术》先导专项《TIG、PTA及其激光复合点焊过程多物理场(热场、流场、电磁场)数值模拟研究》,10万元。 科研成果(近五年): (1) Qin, B., Peng, F.*, et al. Understanding of nitrogen fixation electro catalyzed by molybdenum-iron carbide through the experiment and theory. Nano Energy 2020, 68, 104374. (Q1, IF = 17.881) (2) Qin, B., Peng, F.*, et al. Efficient electrochemical reduction of CO2 into CO promoted by sulfur vacancies. Nano Energy 2019, 60, 43-51. (Q1, IF = 17.881) (3) Qin, B., Peng, F.*, et al. Formation of Lattice-Dislocated Zinc Oxide via Anodic Corrosion for Electrocatalytic CO2 Reduction to Syngas with a Potential Dependent CO:H2 Ratio. ACS Appl. Mater. Inter. 2020, 12, 30466-30473. (Q1, IF = 9.229) (4) Qin, B., Peng, F.*, et al. Electrochemical Reduction of CO2 into Tunable Syngas Production by Regulating the Crystal Facets of Earth-Abundant Zn Catalyst. ACS Appl. Mater. Inter. 2018, 10, 20530-20539. (Q1, IF = 9.229) (5) Qin, B., Peng, F.*, et al. Mechanistic Insights into the Electrochemical Reduction of CO2 and N2 on the Regulation of a Boron Nitride Defect-Derived Two-Dimensional Catalyst using Density Functional Theory Calculations. J. Phys. Chem. Lett., 2021, 12, 7151-7158. (Q1, IF = 6.475) (6) Qin, B., Peng, F.*, et al. Effect of the surface roughness of copper substrate on three-dimensional tin electrode for electrochemical reduction of CO2 into HCOOH. J. CO2 Util. 2017, 21, 219-223. (Q3, IF = 7.132) (7) Qin, B., Peng, F.*, et al. Mechanistic Insights into the Electrochemical Reduction of CO2 on Cyclo[18]carbon using Density Functional Theory Calculations. ChemElectroChem 2020, 7, 1838-1842. (Q3, IF = 4.590) (8) Cai, X.#; Qin, B.#; Peng, F.*, et al. Chlorine-Promoted Nitrogen and Sulfur Co-Doped Biocarbon Catalyst for Electrochemical Carbon Dioxide Reduction. ChemElectroChem 2020, 7, 320-327. (Q3, IF = 4.590, 共同一作) (9) Huang, J.; Cao, Y.*; Qin, B.; Peng, F.*, et al. Highly efficient and acid-corrosion resistant nitrogen doped magnetic carbon nanotubes for the hexavalent chromium removal with subsequent reutilization. Chem. Eng. J. 2019, 361, 547-558. (Q1, IF = 13.273) (10)Zhu, W.; Zhao, K.; Liu, S.; Liu, M.; Peng, F.; An, P.; Qin, B.; Zhou, H.; Li, H.; He, Z.* Low-overpotential selective reduction of CO2 to ethanol on electrodeposited CuxAuy nanowire arrays. J. Energy Chem. 2019, 37, 176-182. (Q2, IF = 9.676)
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