电场
接触带电
再分配(选举)
电气化
材料科学
离子
化学物理
固体表面
电子
电接点
机械
领域(数学)
纳米技术
工程物理
电位
化学
原子物理学
电荷
化学反应
电势能
静电学
作者
Shaoxin Li,Zhong Lin Wang,Di Wei
摘要
. Notwithstanding the burgeoning interest in this area, further fundamental scrutiny is necessary to establish a unified conceptual framework for interfacial electric field-driven reactions, moving beyond empirical observations toward predictive control. In this review, interfacial electric fields are described as emerging from cooperative effects, including CE, oriented water dipoles and ion redistribution, while their dynamic fluctuations are highlighted as a critical factor in driving interfacial chemical reactions. Mechanical excitation, material electronegativity, solvent structure, ionic strength, pH and dissolved gases are discussed as key parameters that modulate these fields and the resulting reactivity. We further emphasize some open questions concerning their spatial distribution, temporal dynamics and reaction-driven evolution and highlight the need for advanced operando techniques capable of resolving interfacial electric fields with nanometer spatial resolution and sub-microsecond temporal resolution to establish causal links between electric field dynamics and reaction outcomes. Overall, interfacial electric fields emerge as hidden forces with far-reaching implications and should be elevated from passive boundary conditions to explicit design parameters for sustainable, high-efficiency interfacial chemistry.
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