研究領域
依託合肥研究院電漿所EAST大科學裝置,開展聚變堆關鍵核材料(壁材料、結構材料)的研究工作:材料輻照損傷、氫氦效應的多尺度模擬以及高性能抗輻照材料理論設計。
學術論文
1)Y.W. You, D.D. Li, X.S. Kong, X.B. Wu, C.S. Liu*, Q.F. Fang, B.C. Pan, J.L. Chen, and G.N. Luo, Clustering of H and He, and their effects on vacancy evolution in tungsten in a fusion environment, Nuclear Fusion 54, 103007 (2014).
2)X.Y. Li, W. Liu, Y.C. Xu, C.S. Liu*, Q.F. Fang, B.C. Pan, J.L. Chen, G.N. Luo, and Z.G. Wang, An energetic and kinetic perspective of the grain-boundary role in healing radiation damage in tungsten, Nuclear Fusion 53, 123014 (2013).
3)X.B. Wu, X.S. Kong, Y.W. You, C.S. Liu*, Q.F. Fang, J.L. Chen, G.N. Luo, and Z.G. Wang, Effects of alloying and transmutation impurities on stability and mobility of helium in tungsten under a fusion environment, Nuclear Fusion 53, 073049 (2013).
4)X.S. Kong, S. Wang, X.B. Wu, Y.W. You, C.S. Liu*, Q.F. Fang, J.L. Chen, and G.N. Luo, First-principles calculations of hydrogen solution and diffusion in tungsten: Temperature and defect-trapping effects, Acta Materialia 84, 426 (2015).
5)X.S. Kong, X.B. Wu, Y.W. You, C.S. Liu*, Q.F. Fang, J.L. Chen, G.N. Luo, and Z.G. Wang, First-principles calculations of transition metal–solute interactions with point defects in tungsten, Acta Materialia 66, 172 (2014).