马奔
发布时间:2015-09-29 发布者:系统管理员 浏览次数:

姓名

马奔

职称

副教授

性别

联系电话


电子邮件

maben@wust.edu.cn

通信地址


学术兼职


一级学科


二级学科


研究方向

固体燃料电池;复合陶瓷材料;PEM燃料电池电极材料

个人简历

(个人求学、进修、工作经历)

武汉理工大学材料科学与工程专业工学学士

美国克莱姆森大学材料科学与工程专业理学硕士

华中科技大学材料科学与工程专业工学博士

主要著作


主要科研项目

1.锰铬尖晶石型固体氧化物燃料电池阴极材料结构设计及氧还原反应机理(51902230),2020-01-2022-12,国家自然科学基金,20万

2.(Al2O3+LaNbO4)/5YSZ复合陶瓷的强韧化机理及导电性能(2017CFB401, 2017-09-2019-09,湖北省自然科学基金,3

主要论文

[1] Ma B, Chi B, Pu J, Li J. LaNbO4 toughened NiO–Y2O3 stabilized ZrO2 composite for the anode support of planar solid oxide fuel cells[J]. International Journal of Hydrogen Energy, 2013, 38(11): 4776-4781.

[2] Ma B, Chi B, Pu J, Li J. In situ TEM observation of domain switch in LaNbO4 added to NiO–Y2O3 stabilized ZrO2 ceramic composite[J]. Scripta Materialia, 2014, 92: 55-58.  

[3] Ma B, Li K, Chi B, Pu J, Li J. Improved mechanical properties and thermal expansion behavior of NiO–Y2O3 stabilized ZrO2 composite by addition of LaNbO4 for anode-support of planar solid oxide fuel cells[J]. Journal of Alloys and Compounds, 2015, 629: 5-10.

[4] Ma B, Li K, Chi B, et al. LaNbO4–NiO–Y2O3 Stabilized ZrO2 Anode‐Support Materials for Solid Oxide Fuel Cells[J]. Journal of the American Ceramic Society, 2015, 98(12): 4022-4027.

[5] 马奔, 李箭. 透射电子显微镜分析LaNbO4–NiO–Y2O3稳定的ZrO2复合材料中的相界[J]. 陶瓷学报, 2016, 37(3):271-273.

[6] Wu L ,  Ma B* ,  Jian P , et al. Improved Fracture Strength of 5YSZ/Al2O3 Composite Matrix by Addition of SiO2 for Planar Automotive Oxygen Sensor[J]. Key Engineering Materials, 2018, 768:97-101.

[7] 梁灵江, 李凯, 颜冬, 马奔, 杨佳军, 蒲健, 池波, 李箭. 固体氧化物燃料电池力学性能和形变行为研究[J]. 无机材料学报, 2015, 30(6):633-638.

[8] Zhang C, Ma B, Zhou Y, et al. Highly active and durable Pt/MXene nanocatalysts for ORR in both alkaline and acidic conditions[J]. Journal of electroanalytical chemistry, 2020, 865:114142.

[9] Zhang C, Ma B, Zhou Y. Three‐dimensional Polypyrrole Derived N‐doped Carbon Nanotube Aerogel as a High‐performance Metal‐free Catalyst for Oxygen Reduction Reaction[J]. ChemCatChem, 2019, 11(22).

[10] Li R, Tao M, Wang P, Yang J, Ma B*, Chi B, Pu J*. Effect of interconnect pre‐oxidation on high‐temperature wettability and mechanical properties of glass seals in SOFC[J]. Journal of the American Ceramic Society 2021, 104:6172-6182.

[11] Wang W, Li Y, Liu Y, Tian Y*, Ma B*, Li J, Pu J, Chi B. Ruddlesden–Popper-Structured (Pr0.9La0.1)2(Ni0.8Cu0.2)O4+δ: An Effective Oxygen Electrode Material for Proton-Conducting Solid Oxide Electrolysis Cells[J]. ACS Sustainable Chemistry & Engineering 2021, 9: 10913-10919.

[12] Ma B, Huang X, Liu Z, Tian X, Zhou Y, Al2O3 coated single-crystal line hexagonal nanosheets of LiNi0.6Co0.2Mn0.2O2 cathode materials for the high- performance lithium-ion batteries[J], Journal of Materials Science, 2022, 57: 2857-2869

[13] Liu C, Ma B*, Lin Z, Zhou Y, Wu K*. Exploring (1-x) CuFe2O4-xGd0.1Ce0.9O1.95 composites as the cathode materials for solid oxide fuel cells[J]. Materials Letters, 2022, 325: 132860.

[14] Lin Z, Ma B*, Chen Z, Zhou Y*. Nanostructured spinel high-entropy oxide (Fe0.2Mn0.2Co0.2Ni0.2Zn0.2)3O4 as a potential cathode for solid oxide fuel cells[J]. Ceramics International, 2023, 49(14): 23057–23067.

[15] Ma B*, Chen Z, Lin Z, Chen L, Zhou Y*. Nanostructured Mg-doped Mn–Cr spinel oxide cathodes for solid oxide fuel cells with optimized performance[J]. Journal of Power Sources, 2023, 583: 233580–233580.


主要获奖情况

2016年获湖北省自然科学优秀学术论文二等奖

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