Thermal transport property of investigated by molecular Ge34 and d-Ge dynamics and the Slack＇s equation

In this study, we evaluate the values of lattice thermal conductivity κL of type Ⅱ Ge clathrate （Ge34） and diamond phase Ge crystal （d-Ce） with the equilibrium molecular dynamics （EMD） method and the Slack＇s equation. The key parameters of the Slack＇s equation are derived from the thermodynamic properties obtained from the lattice dynamics （LD） calculations. The empirical Tersoff＇s potential is used in both EMD and LD simulations. The thermal conductivities of d-Ge calculated by both methods are in accordance with the experimental values. The predictions of the Slack＇s equation are consistent with the EMD results above 250 K for both Ge34 and d-Ge. In a temperature range of 200-1000 K, the κL value of d-Ge is about several times larger than that of Ge34.     

拉曼光谱在血红蛋白结构及功能研究中的应用进展

血红蛋白发挥多种重要生理功能,但对其结构及功能的认识尚不能满足疾病诊治的需求。拉曼光谱在血红蛋白结构及功能研究中具有很大应用潜力,不但可以检测血红蛋白中血红素及其周围分子结构变化,还可以反映血红蛋白反应动力学具体过程。同时,血红蛋白拉曼光谱在疾病状态下异常血红蛋白检测,血氧饱和度定量测定及血液代用品的高铁血红蛋白含量检测中突显优势。本文综述了拉曼光谱在血红蛋白结构及功能领域中的研究,简述了拉曼光谱在一些病变血红蛋白诊断中的研究进展,分析了影响血红蛋白拉曼光谱检测的因素,以促进拉曼光谱技术在血红蛋白结构和功能研究中的应用。     

Thermal transport property of Ge34 and d-Ge investigated by molecular dynamics and the Slack’s equation

In this study,we evaluate the values of lattice thermal conductivity κ L of type II Ge clathrate (Ge 34) and diamond phase Ge crystal (d-Ge) with the equilibrium molecular dynamics (EMD) method and the Slack's equation.The key parameters of the Slack's equation are derived from the thermodynamic properties obtained from the lattice dynamics (LD) calculations.The empirical Tersoff's potential is used in both EMD and LD simulations.The thermal conductivities of d-Ge calculated by both methods are in accordance with the experimental values.The predictions of the Slack's equation are consistent with the EMD results above 250 K for both Ge34 and d-Ge.In a temperature range of 200-1000 K,the κ L value of d-Ge is about several times larger than that of Ge 34.