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选取第五周期元素碘,结合多学科的研究方法论对含碘氨基酸类激素在生物体内的合成和分解代谢进行系统性分析。通过解析碘元素本身性质及其各个氧化态之间的转化,探讨碘元素在生物体内的作用机制,揭示自然界对物质代谢的精细调控。这一教学模式探索性地融入无机化学、元素有机化学、分子生物学、生物化学、生物物理学、化学生物学等一系列学科内容,旨在让学生在领悟生命科学内在规律,从而激发其科研及学习热情,并训练学生的类比思维和思辨能力。期对培养21世纪跨学科综合型人才的培养有所助益。 相似文献
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1 问题的提出任何学科都有自身的基本理论。鉴于过去对学科基本理论未作深究,更主要的是产业部门忙于繁重的生产任务,无暇顾及此类问题;科研部门埋头钻研专题研究,亦未触及此类问题;在教育部门的教学大纲中也缺乏这方面的要求。从而,在基本理论问题上似乎形成了“真空”。因此,有些工程地质工作者们,尖锐地提出了“工程地质学到底有没有基础理论 ?”为此,中国地质学会工程地质专业委员会从1999年 12月 14日起组织了 5次研讨会,分别是 :(1) 1999年 12月 14日议题———“2 1世纪工程地质学发展”。 相似文献
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论工程地质模型——涵义、意义、建模与应用 总被引:2,自引:0,他引:2
本文重点论述了工程地质模型。阐明了工程地质模型的概念与涵义、阐述了建模的依据与方法;探讨了其应用的范畴与要点;尤其充分论述了工程地质模型的学科意义与深远影响。工程地质模型是条件研究的归宿, 是分析、计算与评论的基础。 相似文献
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The far-infrared optical reflectivity of an optimally doped Ba1-xKxFe2As2(x =0.4) single crystal is measured from room temperature down to 4 K. We study the temperature dependence of the in-plane infrared-active phonon at 251 cm-1 . This phonon exhibits a symmetric line shape in the optical conductivity, suggesting that the coupling between the phonon and the electronic background is weak. Upon cooling down, the frequency of this phonon continuously increases, following the conventional temperature dependence expected in the absence of a structural or magnetic transition. The intensity of this phonon is temperature independent within the measurement accuracy. These observations indicate that the structural and magnetic phase transition might be completely suppressed by chemical doping in the optimally doped Ba0.6K0.4Fe2As2 compound. 相似文献
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The far-infrared optical reflectivity of an optimaUy doped Ba1-xKxFe2As2 (x = 0.4) single crystal is measured from room temperature down to 4 K. We study the temperature dependence of the in-plane infrared-active phonon at 251 em-1. This phonon exhibits a symmetric line shape in the optical conductivity, suggesting that the coupling between the phonon and the electronic background is weak. Upon cooling down, the frequency of this phonon continu- ously increases, following the conventional temperature dependence expected in the absence of a structural or magnetic transition. The intensity of this phonon is temperature independent within the measurement accuracy. These observa- tions indicate that the structural and magnetic phase transition might be completely suppressed by chemical doping in the optimally doped Bao.6Ko.4Fe2As2 compound. 相似文献
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