姓名:柳东明
|
|
所在系所:无机非金属材料系
|
职称:教授,博士生导师 |
邮箱:ldm1975@ahut.edu.cn;ldm_ahut@163.com
|
课题组主页:
|
教育背景
2006年毕业于南京工业大学材料物理与化学专业获工学博士学位
1998年毕业于南京化工大学无机非金属材料专业获工学学士学位
工作履历
2006年至今在bat365官网登录入口工作
1998−2001年在安徽理工大学材料系工作
教育教学
安徽省级教学名师,宝钢优秀教师奖获得者,安徽省优秀硕士论文指导教师。讲授本科生课程《材料物理性能》、硕士生课程《新型能源材料》和博士生课程《材料研究新技术》等,获安徽省教学成果奖3项:
[1] 安徽省教学成果一等奖:无机非金属材料工程专业创新型应用人才培养的改革与实践-2020(R1)
[2] 安徽省教学成果特等奖:高峰学科支撑,一流专业引领,材料科学与工程一流本科人才培养的创新实践-2020(R3)
[3] 安徽省教学成果一等奖:材料类专业建设及实践与创新型人才培养的改革与实践-2018(R2)
研究领域
高容量固态储氢材料
高效制氢技术
能源转换与存储技术
多孔金属的制备及应用
学术成果
主持国家自然科学基金项目4项、省部级项目4项,作为课题副组长承担国家“863”计划1项;第一或通讯作者在Journal of Power Sources,Chemical Communications和Scripta Materialia等国际学术刊物发表SCI论文27篇,第一发明人授权国家发明专利10项,并转化2项,获安徽省科学技术三等奖1项。
(一)主持国家及省部级科研项目
[1] 国家自然科学基金面上项目(No. 52071001)
[2] 国家自然科学基金联合基金项目(No. U1503192)
[3] 国家自然科学基金面上项目(No. 51371008)
[4] 国家自然科学基金青年科学基金项目(No. 50901001)
[5] 国家863计划(No. 2007AA05Z113,课题副组长)
[6] 安徽省科技重大专项(No. 17030901069,合作单位主持)
[7] 高校优秀青年人才支持计划重点项目(No. gxyqZD2016067)
[8] 硅材料国家重点实验室开放课题(No. SKL2012-9)
[9] 安徽省高校省级自然科学研究重点项目(KJ2008A149)
(二)发表SCI论文
[1] Xiang Chen*, Zhaojian Qiu, Hanlu Xing, Shunxin Fei, Junzhe Li, Lianbo Ma, Yongtao Li, Dongming Liu*. Sulfur-doping/leaching induced structural transformation toward boosting electrocatalytic water splitting. Applied Catalysis B: Environmental, 2022, 305: 121030.
[2] Z. Li, J.Z. Yu, Y. Zhang, D.M. Liu*, C.Y. Wang, T.Z. Si, Y.T. Li*, Q.A. Zhang. Coupling of nanoconfinement with metallic catalysis in supported NaAlH4 for low-temperature hydrogen storage. Journal of Power Sources, 2021, 491: 229611.
[3] Rui Tong, Shicheng Zhang, Dongming Liu*, Weipeng Zhang, Yutao Wang, Xiaofeng Liu. Tuning back side passivation for enhancing the performance of PERC solar cells. Solar Energy Materials & Solar Cells, 2021, 231: 111319.
[4] Rui Tong, Weipeng Zhang, Ximan Ke, Dongming Liu*, Zhongwei Zhang. Influence of surface structure on the performance of mono-like Si PERC solar cell. Materials Science in Semiconductor Processing, 2021, 126: 105662.
[5] Guoyu Yang, Chen Xie, Yongtao Li*, Hai-Wen Li, Dongming Liu*, Jianguo Chen*, Qingan Zhang. Enhancement of the ionic conductivity of lithium borohydride by silica supports. Dalton Transactions, 2021, 50: 15352.
[6] Xi Chen, Zhao Li, Yue Zhang, Dongming Liu*, Chunyang Wang, Yongtao Li, Tingzhi Si, Qingan Zhang. Enhanced low-temperature hydrogen storage in nanoporous Ni-based alloy supported LiBH4. Frontiers in Chemistry, 2020, 8: 283.
[7] L. Yang, S.X. Zhao, D.M. Liu*, Y.T. Li, T.Z. Si. Hydrogen storage properties and reactive mechanism of LiBH4/Mg10YNi composite. Materials Research, 2019, 22(1): e20180458.
[8] S.X. Zhao, C.Y. Wang, D.M. Liu*, Q.J. Tan, Y.T. Li, T.Z. Si. Destabilization of LiBH4 by SrF2 for reversible hydrogen storage. International Journal of Hydrogen Energy, 2018, 43(10): 5098−5103.
[9] Y. Zhang, T.Z. Si, Y.T. Li, D.M. Liu*. Thermal dehydrogenation characteristics of Li–Sr–Al–N–H hydrogen storage system. Materials Research, 2018, 21(2): e20170711.
[10] Tingzhi Si*, Yong Ma, Yongtao Li, Dongming Liu*. Solid solution of Cu in Mg2NiH4 and its destabilized effect on hydrogen desorption. Materials Chemistry and Physics, 2017, 193: 1−6.
[11] 顾润, 张明, 王春阳, 黄维军, 柳东明*. 3LiBH4/CeF3体系的放氢性能及机制. 高等学校化学学报, 2016, 37(4): 688−692.
[12] R. Gu, C.Y. Wang, D.M. Liu*, C. Gao, Y.T. Li, T.Z. Si. De-/rehydrogenation properties and reaction mechanisms of 4LiBH4–LiAlH4–MgF2 system. International Journal of Hydrogen Energy, 2015, 40: 10536−10541.
[13] D.M. Liu*, Q.J. Tan, C. Gao, T. Sun, Y.T. Li. Reversible hydrogen storage properties of LiBH4 combined with hydrogenated Mg11CeNi alloy. International Journal of Hydrogen Energy, 2015, 40: 6600−6605.
[14] D.M. Liu, C. Gao, Z.X. Qian, T.Z. Si, Q.A. Zhang*. Reversible hydrogen storage in LiBH4/Ca(AlH4)2 systems. International Journal of Hydrogen Energy, 2013, 38: 3291−3296.
[15] D.M. Liu, W.J. Huang, T.Z. Si, Q.A. Zhang*. Hydrogen storage properties of LiBH4 destabilized by SrH2. Journal of Alloys and Compounds, 2013, 551: 8−11.
[16] D.M. Liu, Z.X. Qian, T.Z. Si, Q.A. Zhang*. Synthesis, crystal structure and thermal decomposition of LiCa(AlH4)3. Journal of Alloys and Compounds, 2012, 520: 202−206.
[17] D.M. Liu, Q.Q. Liu, T.Z. Si, Q.A. Zhang*, F. Fang, D.L. Sun, L.Z. Ouyang, M. Zhu*. Superior hydrogen storage properties of LiBH4 catalyzed by Mg(AlH4)2. Chemical Communications, 2011, 47(20): 5741−5743.
[18] D.M. Liu, Q.Q. Liu, T.Z. Si, Q.A. Zhang*. Synthesis and crystal structure of a novel nitride hydride Sr2LiNH2. Journal of Alloys and Compounds, 2010, 495(1): 272−274.
[19] D.M. Liu, C.H. Fang, Q.A. Zhang*. Hydrogen storage properties of MgH2-(Sr,Ca)2AlH7 composite. Journal of Alloys and Compounds, 2009, 485: 391−395.
[20] D.M. Liu, C.H. Fang, Q.A. Zhang*. Synthesis of the (Sr,Ca)2AlH7 hydride. Journal of Alloys and Compounds, 2009, 477: 337−340.
[21] D.M. Liu, C.H. Fang, Q.A. Zhang*. Structural change and hydrogenation behavior of (Sr, Ca)2Al alloys. International Journal of Hydrogen Energy, 2008, 33(20): 5641−5645.
[22] D.M. Liu, Y.F. Zhu, L.Q. Li*. Synthesis mechanism and properties of Mg-Mg2Ni composite hydrogen storage alloy produced by hydriding combustion synthesis. Materials Science and Technology, 2008, 24(11): 1309−1312.
[23] Dongming Liu, Xiaofeng Liu, Yunfeng Zhu, Liquan Li*. Hydriding combustion synthesis of Mg-CaNi5 composites. Journal of Alloys and Compounds, 2008, 458: 394−397.
[24] D.M. Liu, T.Z. Si, C.C. Wang, Q.A. Zhang*. Phase component, microstructure and hydrogen storage properties of the laser sintered Mg–20 wt.% LaNi5 composite. Scripta Materialia, 2007, 57(5): 389−392.
[25] Dongming Liu, Yunfeng Zhu, Liquan Li*. Effect of surface oxidation on the hydriding and dehydriding of Mg2Ni alloy produced by hydriding combustion synthesis. Journal of Materials Science, 2007, 42(23): 9725−9729.
[26] Dongming Liu, Yunfeng Zhu, Liquan Li*. Crystal defect analysis and surface characteristics of Mg2NiH4 produced by hydriding combustion synthesis. International Journal of Hydrogen Energy, 2007, 32(13): 2417−2421.
[27] Dongming Liu, Yunfeng Zhu, Liquan Li*. Mechanism of the high activity of Mg2NiH4 produced by hydriding combustion synthesis based on the analysis of phase composition, particle characteristic and grain size. International Journal of Hydrogen Energy, 2007, 32(13): 2455−2460.
(三)授权发明专利
[1] 柳东明, 杨柳, 李成成, 王春阳, 斯庭智, 张庆安. 一种镁铝复合阻燃剂的制备方法. 专利号: ZL 201910047894.2.
[2] 柳东明, 陈曦, 宋佳丽, 王春阳, 李永涛, 张庆安. 一种降低硼氢化锂放氢温度的方法. 专利号: ZL 201710853256.0.
[3] 柳东明, 于金柱, 左晨欢, 王春阳, 斯庭智, 张庆安. 一种改善铝氢化钠储氢性能的方法. 专利号: ZL 201710853202.4.
[4] 柳东明, 杨柳, 王春阳, 李永涛, 斯庭智, 张庆安. 一种改善硼氢化锂放氢/再吸氢性能的方法. 专利号: ZL 201710852917.8.
[5] 柳东明, 张月, 顾润, 斯庭智, 李永涛, 张庆安. 一种含碳化钙的复合储氢材料及其制备方法. 专利号: ZL 201611025519.0.
[6] 柳东明, 张月, 顾润, 斯庭智, 李永涛, 张庆安. 一种硼氢化锂/碱金属铝氢化物/碳化钙复合储氢材料及其制备方法. 专利号: ZL 201611025480.2.
[7] 柳东明, 王春阳, 张庆安, 斯庭智, 李永涛. 一种氢化铝锂基复合储氢材料及其制备方法. 专利号: ZL 201510460878.8.
[8] 柳东明, 谈钱戬, 郭光亭, 张庆安, 斯庭智. 一种低温合成镁−镍三元金属硼化物的方法. 专利号: ZL 201410611880.6.
[9] 柳东明, 顾润, 张庆安, 斯庭智, 李永涛. 一种纳米氧化锆粉体的制备方法. 专利号: ZL 201410611888.2.
[10] 柳东明, 张庆安, 斯庭智. 一种改善硼氢化锂储氢性能的方法. 专利号: ZL 201110328128.7.