在有幾高分子及生物分子的多元尺度模擬的發展上,粗殼粒子模擬法(Coarse-grained simulation)與耗散粒子動力學(Dissipative Particle Dynamics, DPD)乃將模擬系統內局部原子團簇表示為一作用單位,粒子間相互作用參數我們藉由MD的計算與 Flory-Huggins theory的結合獲得,間接的將微觀與介觀尺度關係做了連結。如此,藉由DPD模擬所求得的結果雖比全原子MD模擬結果來的粗糙,但其可突破MD的小模擬時間與尺寸的限制,並可達到MD系統所難以達成的相變行為。本人以藉由DPD模擬方法分析高分子PE/PLLA複合材料系統,藉由改變高分子鏈長、混合方法、與不同體積分率研究結構特性的影響,由於此兩種高分子不互溶的特性,發現系統會隨著參數的改變而形成特殊結構。  Publication : 1.Hui-Lung Chen, Shin-Pon Ju, Jenn-Sen Lin, Jijun Zhao, Hsin-Tsung Chen, Jee-Gong Chang, Meng-Hsiung Weng, Shin-Chin Lee, Wen-Jay Lee (2010, Nov). Electronic property of a silicon carbide nanotube under uniaxial tensile strain: a density function theory study. Journal of Nanoparticle Research, 12期,P.2919. (SCI, 38/232, MATERIALS SCIENCE, MULTIDISCIPLINARY; 36/154, CHEMISTRY, MULTIDISCIPLINARY; 24/66,NANOSCIENCE & NANOTECHNOLOGY). 2.Shin-Pon Ju, Yao-Chun Wang, Jenn-Sen Lin , Wen-Jay Lee, and Hsiwen Yang (2009, Nov). Combined Molecular Dynamics and Dissipative particle dynamics to Study of the Microstructure of Poly(L-lactide)/Polyethylene Blends. Journal of Nanoscience and Nanotechnology, 9期,P.731. (SCI, 66/154, CHEMISTRY, MULTIDISCIPLINARY; 90/232,MATERIALS SCIENCE, MULTIDISCIPLINARY; 38/66, NANOSCIENCE & NANOTECHNOLOGY). |