delocalization effect
离域效应
delocalization energy
离域能
delocalization process
离域过程
delocalization occurs
离域发生
delocalization pattern
离域模式
delocalization leads
离域导致
delocalization study
离域研究
delocalization within
在...内离域
delocalization state
离域态
the delocalization of electrons contributes to the stability of benzene.
电子离域有助于苯的稳定性。
pi systems often exhibit significant delocalization across multiple atoms.
π体系通常在多个原子间表现出显著的离域性。
resonance structures represent delocalization, not a physical shift of electrons.
共振结构代表电子离域,而不是电子的物理移动。
extended delocalization leads to lower energy levels and increased stability.
扩展的离域性导致较低的能级和更高的稳定性。
the extent of delocalization is influenced by the molecular structure.
离域的程度受分子结构的影响。
conjugated systems facilitate the delocalization of pi electrons.
共轭体系促进了π电子的离域。
delocalization increases the overall electron density in the molecule.
离域增加了分子中电子的整体密度。
experimental techniques can probe the extent of delocalization in polymers.
实验技术可以探测聚合物中离域的程度。
the delocalization of charge is crucial for understanding organic semiconductors.
电荷离域对于理解有机半导体至关重要。
molecular orbital theory explains the phenomenon of delocalization effectively.
分子轨道理论有效地解释了离域现象。
increased delocalization often correlates with enhanced conductivity.
增加的离域性通常与增强的导电性相关联。
delocalization effect
离域效应
delocalization energy
离域能
delocalization process
离域过程
delocalization occurs
离域发生
delocalization pattern
离域模式
delocalization leads
离域导致
delocalization study
离域研究
delocalization within
在...内离域
delocalization state
离域态
the delocalization of electrons contributes to the stability of benzene.
电子离域有助于苯的稳定性。
pi systems often exhibit significant delocalization across multiple atoms.
π体系通常在多个原子间表现出显著的离域性。
resonance structures represent delocalization, not a physical shift of electrons.
共振结构代表电子离域,而不是电子的物理移动。
extended delocalization leads to lower energy levels and increased stability.
扩展的离域性导致较低的能级和更高的稳定性。
the extent of delocalization is influenced by the molecular structure.
离域的程度受分子结构的影响。
conjugated systems facilitate the delocalization of pi electrons.
共轭体系促进了π电子的离域。
delocalization increases the overall electron density in the molecule.
离域增加了分子中电子的整体密度。
experimental techniques can probe the extent of delocalization in polymers.
实验技术可以探测聚合物中离域的程度。
the delocalization of charge is crucial for understanding organic semiconductors.
电荷离域对于理解有机半导体至关重要。
molecular orbital theory explains the phenomenon of delocalization effectively.
分子轨道理论有效地解释了离域现象。
increased delocalization often correlates with enhanced conductivity.
增加的离域性通常与增强的导电性相关联。
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