刘彤

职称职务:教授
所在单位:材料科学系
联系电话:010-82316192
电子邮箱:tongliu@buaa.edu.cn
办公地点:D331

 

基本情况

1999年毕业于中国铁道科学研究院金属及化学研究所,获博士学位。2001年4月至2003年4月,北京大学化学学院,博士后;2003年5月至2006年3月,日本岩手大学工学部,非常勤讲师;2006年4月至2008年3月,日本京都大学先进能源研究所,产学官研究员;2008年4月至今,北京航空航天大学材料学院,副教授、教授。承担国家自然科学基金、国家863项目子课题、预研基金和航空科学基金等科研项目20余项。获国家发明专利授权5项,发表SCI收录论文70余篇。



主讲课程

本科生课程:《晶体学基础》、《纳米结构轻合金制备技术及其应用》;
       研究生课程:《粉末冶金原理及应用》、《材料的表面与界面》
 



研究方向

纳米储氢材料;等离子体合成多孔纳米材料及其电磁性能;先进能源系统中的高温结构材料。


研究成果

主持国家自然科学基金、国家863项目子课题、预研基金和航空科学基金等科研项目20余项。获国家发明专利授权5项,发表SCI收录论文70余篇。近期发表的主要论文:
[1] Xiubo Xie, Yu Pang和i, Hiroaki Kikuchi and Tong Liu*, The Synergistic Effects of the Carbon Coating and Micropore Structure on the Microwave Absorption Properties of the Co/CoO Nanoparticles, Physical Chemistry Chemical Physics, 2016 (18) 30507-30514.
[2] Tong Liu*; Xie, Xiubo; Pang, Yu; Kobayashi, Satoru,Co/C nanoparticles with low graphitization degree: a high performance microwave-absorbing material,Journal of Materials Chemistry C, 4 (2016) 1727-1735.
[3] Tong Liu*, Linbo Wang, Chenxi Wang and Hailong Shen, Effect of Al content on the oxidation behavior of Y2Ti2O7-dispersed Fe-14Cr ferritic alloys, Corrosion Science, 104 (2016) 17-25.
[4] Tong Liu*, Linbo Wang, Chenxi Wang, Hailong Shen and Hongtao Zhang, Feasibility of using Y2Ti2O7 nanoparticles to fabricate high strength oxide dispersion strengthened Fe-Cr-Al steels, Materials & Design, 88 (2015)862-870.
[5] Tong Liu*, Xiujuan Ma, Chunguang Chen, Li Xu and Xingguo Li, Catalytic Effect of Nb Nanoparticles for Improving the Hydrogen Storage Properties of Mg-based Nanocomposite, Journal of Physical Chemistry C, 119 (2015) 14029-14037.
[6] Tong Liu*, Yu Pang, Hiroaki Kikuchi, Yasuhiro Kamada and Seiki Takahashi, Superparamagnetic Property and High Microwave Absorption Performance of FeAl@(Al, Fe)2O3 Nanoparticles Induced by Surface Oxidation, Journal of Materials Chemistry C, 3 (2015) 6232-6239.
[7] Tong Liu*, Chunguang Chen, Hui Wang and Ying Wu, Enhanced hydrogen storage properties of Mg-Ti-V nanocomposite at moderate temperatures, Journal of Physical Chemistry C, 118 (2014) 22419–22425.
[8] Tong Liu*, Yu Pang, Mu Zhu and Satoru Kobayashi, Microporous Co@CoO Nanoparticles with Superior Microwave Absorption Properties, Nanoscale. 6 (2014) 2447-2454.
[9] Tong Liu*, Yurong Cao, Chenggong Qin, and Xingguo Li, Synthesis and hydrogen storage properties of Mg-10.6La-3.5Ni nanoparticles, Journal of Power Sources. 246 (2014) 277-282.
[10] Tong Liu*, Yurong Cao, Hui Li, Wusheng Chou, Xingguo Li, Superior hydrogen storage and electrochemical properties of Mg-La-Pd trilayer films at room temperature, Journal of Power Sources. 267 (2014) 598-602.
[11] Tong Liu*, Chunguang Chen, Fan Wang, and Xingguo Li, Enhanced hydrogen storage properties of Magnesium by the synergic catalytic effect of TiH1.971 and TiH1.5 nanoparticles at room temperature, Journal of Power Sources. 267 (2014) 69-77.
[12] Tong Liu*, Chenxi Wang, Hailong Shen, Wusheng Chou, Noriyuki Y. Iwata, Akihiko Kimura, The effects of Cr and Al concentrations on the oxidation behavior of oxide dispersion strengthened ferritic alloys, Corrosion Science. 76 (2013) 310–316.
[13] Tong Liu*, Yurong Cao, Gongbiao Xin, and Xingguo Li. Superior hydrogen storage and electrochemical properties of MgxNi100−x/Pd films at room temperature. Dalton Transactions. 42 (2013) 13692-13697.
[14] Tong Liu*, Lei Xie, Yaoqi Li and Xingguo Li, “Hydrogen/deuterium storage properties of Pd nanoparticles”, Journal of Power Sources. 237 (2013) 74-79.
[15] Tong Liu*, Hailong Shen, Yang Liu and Lei Xie, “Jianglan Qu, Huaiyu Shao, Xingguo Li, Scaled-up synthesis of nanostructured Mg-based compounds and their hydrogen storage properties”, Journal of Power Sources. 227 (2013) 86-93.
[16] Tong Liu*, Chenggong Qin, Tongwen Zhang, Yurong Cao, Mu Zhu and Xingguo Li, “Synthesis of Mg@Mg17Al12 ultrafine particles with superior hydrogen storage properties by hydrogen plasma-metal reaction”, Journal of Materials Chemistry. 22 (2012) 19831-19838.
[17] Tong Liu*, Chenggong Qin, Mu Zhu, Yurong Cao, Hailong Shen and Xingguo Li, “Synthesis and hydrogen storage properties of Mg-La-Al nanoparticles”, Journal of Power Sources. 219 (2012) 100-105.