田永君的论文成果
1、Feng; ZH, Influence of beryllium addition on the microstructural evolution and mechanical properties of Zr alloys, Materials & Design, 65卷, pp 890-895, 2015.2、Li; Jian, Novel metastable compounds in the Zr–B system: an ab initio evolutionary study, Physical Chemistry Chemical Physics, 17(2), pp 1180-1188, 2015.3、Yang; Zhinan, Study on hot deformation behaviour and processing maps of low carbon bainitic steel, Materials & Design, 66卷, pp 258-266, 2015.4、Zou; Guodong, Age strengthening behavior and mechanical properties of Mg–Dy based alloys containing LPSO phases, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 620卷, pp 10-15, 2015.5、Zou; Guodong, The effect of extension twinning on the electrochemical corrosion properties of Mg–Y alloys, Journal of Alloys and Compounds, 618卷, pp 44-48, 2015.6、王倩倩, 硅和过渡金属硼化物新结构及性能的理论与实验研究, 材料科学与工程学院, 博士, 燕山大学, 中国, 2014/12/13.7、Dong; Huicong, Relative importance of grain boundaries and size effects in thermal conductivity of nanocrystalline materials, Scientific Reports, 4(11), pp 1-11, 2014/11/13.8、Fan; Changzeng, A Novel Stable Binary BeB2 phase, Scientific Reports, 4(11), pp 1-11, 2014/11/11.9、Fan; Changzeng, Phase transitions, mechanical properties and electronic structures of novel boron phases under high-pressure: A first-principles study, Scientific Reports, 4(10), pp 1-11, 2014/10/27.10、田永君; *何巨龙, Theoretical two-atom thick semiconducting carbon sheet, Physical Chemistry Chemical Physics, 16(34), pp 18118-18123, 2014/9/14.11、Hu, M; Shu, Y; Cui, L; He, JL号分隔, Theoretical two-atom thick semiconducting carbon sheet, Physical Chemistry Chemical Physics, 16(34), pp 18118-18123, 2014/9/14.12、刘少存, 非化学计量比碳化钛(锆)的制备及其结构, 材料科学与工程学院, 博士, 燕山大学, 中国, 2014/9/14.13、Li; Jian, Mechanical properties, electronic properties and phase stability of Mg under pressure: A first-principles study, International Journal of Modern Physics B, 28(29), pp 1-18, 2014/7/31.14、Hu M, Shu Y, Cui L, Xu B, Yu D L; He J L, Theoretical two-atom thick semiconducting carbon sheet, Physical Chemistry Chemical Physics, 16(7), pp 18118-18123, 2014/7/8.15、Hu, M; Shu, Y; Cui, L; He, JL, Theoretical two-atom thick semiconducting carbon sheet, Physical Chemistry Chemical Physics, 16(34), pp 18118-18123, 2014/7/8.16、Wang Q Q, Xu B, Sun J, Liu H Y, Zhao Z S, Yu D; He J L, Direct band gap silicon allotropes, Journal of the American Chemical Society, 136(6), pp 9826-9829, 2014/6/27.17、Zhao, ZS; Meng, CM; Li, PF; Zhu, WJ; Wang, QQ; Ma, YM; Shen, GY; Bai, LG; He, HL; He, DW; Yu, DL; He, JL; Xu, B; Tian, YJ, Carbon coated face-centered cubic Ru-C nanoalloys, Nanoscale, 6(17), pp 10370-10376, 2014/6/27.18、Xiong, M; Fan, CZ; Zhao, ZS; Wang, QQ; He, JL; Yu, DL; Liu, ZY; Xu, B; Tian, YJ, Novel three-dimensional boron nitride allotropes from compressed nanotube bundles, Journal of Materials Chemistry C, 2(34), pp 7022-7028, 2014/6/26.19、Huang Q, Yu D L, Xu B, Hu W T, Ma Y M, Wang Y, Nanotwinned diamond with unprecedented hardness and stability, Nature, 510(1), pp 250-253, 2014/6/12.20、Huang, Q; Yu, DL; Xu, B; Hu, WT; Ma, YM; Wang, YB; Zhao, ZS; Wen, B; He, JL; Liu, ZY; Tian, YJ, Nanotwinned diamond with unprecedented hardness and stability, Nature, 510(7504), pp 250-253, 2014/6/12.等471条论文成果请查看科研之友。
田永君的研究奖励
2011年,田永君教授科研团队所完成的“硬度的微观理论及新型亚稳材料设计”项目成果获得国家自然科学二等奖。 该项目从化学键入手,创建了硬度的微观理论模型,建立了布居离子性新标度,实现了极性共价晶体硬度的定量预测,解决了硬度与晶体微观电子结构间定量关联这一理论难题。以此理论模型为基础,项目设计出了系列的新型亚稳材料,部分材料已被实验合成,使超硬材料探索从定性进入到了定量化的可设计阶段,推动了计算材料科学的发展。23个国家和地区的100多个研究机构使用本模型开展跟踪和拓展研究。硬度微观模型已成为材料设计的一个实用工具,并被拓展到纳米、缺陷和薄膜等研究领域。8篇代表性论文被他引342次项目完成人:田永君(燕山大学),王慧田(南京大学),高发明(燕山大学),何巨龙(燕山大学),孙 建(南京大学)至此,田永君教授共获得国家自然科学二等奖1项,中国高校科学技术奖(自然科学类)一等奖1项,获得其他省部级一等奖1项、二等奖1项、三等奖3项。发表学术论文120余篇。
