配位化合物由于在电子、光学、磁化学、选择性催化和分子识别等方面具有特殊性能而在诸多领域具有广阔的应用前景。
Metal-organic complexes have a wide range of applications, due to their special properties in electronics, optics, magnetics, selective catalysis and molecular recognition.
较全面地阐述了磁化效应对水带来的物理、化学成分的变化。
The chemical and physic as well as inside structural changes in water caused by magnetization are fairly roundly expounded.
同时初步探讨了磁场影响化学反应速率的机理,并展望了磁化学的发展前景。
The mechanism of magnetic field effects on reaction rates and the development of the magnetic chemistry are also discussed.
磁化率和粒度、地球化学元素的综合分析更加详细的刻画出研究区域中更新世的沉积环境。
A detailed entironment in Pleistocene on this area is showed by synthetical analyze of Geochemistry, particle-size distribution and magnetic susceptibility result.
自旋交叉配合物的研究是分子磁化学中的一个重要领域,已引起人们的普遍关注。
The study of the spin-crossover phenomenon is an important field of magnetochemistry, which has attracted much attention.
自旋交叉配合物的研究是分子磁化学中的一个重要领域,已引起人们的普遍关注。
The study of the spin-crossover phenomenon is an important field of magnetochemistry, which has attracted much attention.
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