姓名:高志明
性别:男
职称:教授/博导
电子邮箱:zgao@bit.edu.cn研究领域:催化化学
(一)学习和工作简历
1985 年 6 月 吉林大学化学系 本科毕业
1993 年 9 月 吉林大学化学系 获博士学位
1996 年 10 月– 1998 年 9 月 日本九州大学 博士后
1999 年 4 月– 2002 年 3 月 日本千叶工业大学 讲师
2002 年 9 月– 2003 年 5 月 英国伯明翰大学 访问学者
2003 年 6 月– 现在 北京理工大学 副教授、教授
(二)主要研究经历
在如下领域具有研究经验:(1)氢能源化学,(2)甲烷转化制 C2+烃,(3)甲烷催化燃烧,(4)聚合物降解反应动力学,(5)固体氧化物燃料电池。
(三)研究论文
氢能源化学
L. Zhang, M. Xiao, Z. Gao*, H. Ma, L. Bao, Z. Li*. CO removal via selective methanation over the catalysts Ni/ZrO2 prepared with reduction by the wet H2-rich gas, International Journal of Hydrogen Energy 43 (2018) 15985-15994
L. Zhang, Z. Gao*, L. Bao, H. Ma*. Influence of the supports ZrO2 on selective methanation of CO over the nickel supported catalysts, International Journal of Hydrogen Energy 43 (2018) 9287-9295
Z. Gao*, S. Zhang, H. Ma, Z. Li*. Surface composition change of the chlorine- doped catalyst Ni(Clx)/CeO2 in the methanation reaction, Journal of Rare Earths 35 (2017) 977-983
Z. Gao*, L. Wang, H. Ma, Z. Li*. Durability of catalytic performance of the chlorine-doped catalysts Ni(Clx)/ZrO2 for selective methanation of CO in H2-rich gas, Applied Catalysis A: General 534 (2017) 78-84
Z. Gao*, Q. Dai, H. Ma, Z. Li. Ceria supported nickel catalysts for CO removal
from H2-rich gas, Journal of Rare Earths 34 (2016) 1213-1220
Z. Gao*, L. Cui, H. Ma. Selective methanation of CO in H2-rich gas over Ni/Al2O3 catalyst: Effects of preparation method and Ru addition, International Journal of Hydrogen Energy 41 (2016) 5484-5493
Z. Gao*, Y. Liu, Q. He, H. Ma, Z. Li. Preferential oxidation of CO and its subsequent methanation in H2-rich gas over CuO-NiO/CeO2 catalysts, International Journal of Hydrogen Energy 41 (2016) 4646-4659
M. Zhang, H. Ma, Z. Gao*. Phase composition of Ni/Mg1-xNixO as a catalyst prepared for selective methanation of CO in H2-rich gas, Journal of Nanomaterials, 2015, http://dx.doi.org/10.1155/2015/790857 (open access)
Z. Gao*, Y. Gong, Q. Zhang*, H. Deng, Y. Yue. Preferential oxidation of CO in excess H2 over CeO2/CuO catalyst: Effect of initial support, Journal of Energy Chemistry 23 (2014) 475-482
Z. Gao*, M. Zhou, H. Deng, Y. Yue. Preferential oxidation of CO in excess H2 over CeO2/CuO catalyst: Effect of calcination temperature, Journal of Natural Gas Chemistry 21 (2012) 513-518
高志明*,代倩子,马宏伟. 添加氯离子对 Ni/CeO2 催化剂的 CO 选择甲烷化
反应催化性能的促进作用,北京理工大学学报 36(4) (2016) 429-434
高志明*,宋晓媛,马宏伟,张强. CuO/CeO2 催化剂在温度变动过程中的
CO-PROX 催化性能,北京理工大学学报 36(2) (2016) 215-220
甲烷转化及催化燃烧
F. Liu, H. Ma, Z. Li, Z. Gao*. Competitive occupying of Fe3+ and Co3+ ions into the lattice B-sites of perovskite crystalline structure, Chinese Journal of Structural Chemistry 36(2) (2017) 217-228
F. Liu, Y. Sang, H. Ma, Z. Li, Z. Gao*. Nickel oxide as an effective catalyst for catalytic combustion of methane, Journal of Natural Gas Science and Engineering 41 (2017) 1-6
Z. Gao*, H. Wang, H. Ma, Z. Li. Preparation and characterization of the non- stoichiometric La-Mn perovskites, Journal of Alloys and Compounds 646 (2015) 73-79
F. Liu, Z. Li, H. Ma, Z. Gao*. Surface composition and catalytic activity of La-Fe mixed oxides for methane oxidation, Applied Surface Science 351 (2015) 709-714
Z. Gao*, H. Li. Tuning surface active oxygen of lanthanum oxide via partial
dissolution and re-growth of crystallites, Journal of Natural Gas Chemistry 20 (2011) 483-486
Z. Gao*, L. Wei, T. Yan, M. Zhou. Modification of surface layer of magnesium oxide via partial dissolution and re-growth of crystallites, Applied Surface Science 257 (2011) 3412-3416
Z. Gao*, R. Wang. Catalytic activity for methane combustion of the perovskite- type La1-xSrxCoO3-δ oxide prepared by the urea decomposition method, Applied Catalysis B: Environmental 98 (2010) 147-153
Z. Gao*, Y. Ma. Direct oxidation of methyl radicals in OCM process deduced from correlation of product selectivities, Journal of Natural Gas Chemistry 19(5) (2010) 534-538
Z. Gao*, Y. Shi. Suppressed formation of CO2 and H2O in the oxidative coupling of methane over La2O3/MgO catalyst by surface modification, Journal of Natural Gas Chemistry 19(2) (2010) 173-178
Z. Gao*, J. Zhang, R. Wang. Formation of hydrogen in oxidative coupling of methane over BaCO3 and MgO catalysts, Journal of Natural Gas Chemistry 17(3) (2008) 238-241
Z. Gao*, M. Kobayashi, H. Wang, K. Onoe, T. Yamaguchi. Methane conversion in thermal diffusion column reactor with carbon rod as pyrogen, Fuel Processing
Technology 88 (2007) 996-1001
庞占永,刘凤祥,高志明*. 锶掺杂对钙钛矿型 La1-xSrxCoO3-d 的甲烷催化燃烧活性的促进作用,天然气化工 40(4) (2015) 82-86
王慧贤,高志明*. 微波等离子体甲烷转化反应中积炭的形成及其与氢气的反应,天然气化工 31(6) (2006) 11-14
高志明*,王慧贤. 热扩散管反应器中甲烷转化反应的研究,北京理工大学学报 26(8) (2006) 745-748
聚合物降解反应动力学
Z. Gao*, H. Wang, M. Nakada. Iterative method to improve calculation of the pre-exponential factor for dynamic thermogravimetric analysis measurements,
Polymer 47 (2006) 1590-1596
Z. Gao*, T. Kaneko, D. Hou, M. Nakada. Kinetics of thermal degradation of poly(methyl methacrylate) studied by the assistance of the fractional conversion at the maximum reaction rate, Polymer Degradation and Stability 84 (2004) 399-403
Z. Gao*, I. Amasaki, T. Kaneko, M. Nakada. Assessment of the error of the pre-exponential factor obtained from the isoconversional plot and the single heating rate plot for dynamic thermogravimetric measurement of polymer degradation, Polymer Degradation and Stability 83 (2004) 67-70
Z. Gao*, I. Amasaki, T. Kaneko, M. Nakada. Calculation of activation energy from fraction of bonds broken for thermal degradation of polyethylene, Polymer Degradation and Stability 81 (2003) 125-130
Z. Gao*, T. Kaneko, I. Amasaki, M. Nakada. A kinetic study of thermal degradation of polypropylene, Polymer Degradation and Stability 80 (2003) 269-274
Z. Gao*, I. Amasaki, M. Nakada. A thermogravimetric study on thermal degradation of polyethylene, J. Anal. Appl. Pyrolysis 67 (2003) 1-9
Z. Gao*, I. Amasaki, M. Nakada. A description of kinetics of thermal decomposition of calcium oxalate monohydrate by means of the accommodated Rn model, Thermochimica Acta 385 (2002) 95-103
Z. Gao*, M. Nakada, I. Amasaki. A consideration of errors and accuracy in the isoconversional methods, Thermochimica Acta 369 (2001) 137-142
