電子親合能

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在一般化學與原子物理學中，電子親合能（或電子親和勢、電子親和力，electron affinity，E_ea）的定義是，將單個電子結合到電中性的氣態原子或分子上所釋放的能量^[1]：

X(g) + e⁻ → X⁻(g) + E_ea

注意在此定義下，大多數元素原子的電子親和能為正數，即結合電子的過程是放熱的。這裏定義的電子親和能的正負號選取和一般熱力學的定義相反。

在固態物理學之中，對於一表面的電子親合能定義不同。

並非所有的元素的電子親合能均為正，電子親合能為正表示其 -1 價的離子需吸收能量才能變為電中性的原子（早期的教科書寫有些元素，例如稀有氣體，其電子親合能為負，此說法並未被現代的化學家接受）。若其陰離子較不穩定，容易變成原子，則其電子親合能較低。元素中氯的電子親合能最高，汞和稀有氣體等元素的電子親合能都接近零。一般來說，非金屬的電子親合能都比金屬高。

總的來說，同一週期從左至右，價殼層電子遞增，使得原子穩定性上昇，原子半徑遞減，對電子的吸引能力漸強，因而電子親合能遞增；同族元素從上到下，因原子半徑的增大，而且總電子數增加，原子穩定性下降，元素電負性值遞減。 實際上，隨核電荷數遞增或同族元素從上到下，電子親和能的變化並不單調。

下列數據以kJ/mol為單位。帶星號的元素在量子力學基態被認為有接近零的電子親合能。

電子親合能 E_ea 的定義也可以延伸到分子。如苯和萘的電子親合能為負值，而蒽 、菲、芘的電子親合能為正值。電腦模擬實驗證實六氰基苯 C₆(CN)₆ 的電子親合能較富勒烯要高。^[4]

• Koopmans' theorem
• One-electron reduction
• 游離能
• 電負性
• 價電子

1. ^ 國際純化學和應用化學聯合會，化學術語概略，第二版。（金皮書）(1997)。在線校正版: (2006–) "Electron affinity"。doi:10.1351/goldbook.E01977
2. ^ ^{2.0 2.1 2.2 2.3} Bratsch, S.G.; Lagowski, J.J. Predicted stabilities of monatomic anions in water and liquid ammonia at 298.15 K.. Polyhedron. 1986, 5 (11): 1763–1770. doi:10.1016/S0277-5387(00)84854-8. 
3. ^ ^{3.0 3.1} 存档副本. [2019-12-28]. （原始內容存檔於2020-02-03）. 
4. ^ Remarkable electron accepting properties of the simplest benzenoid cyanocarbons: hexacyanobenzene, octacyanonaphthalene and decacyanoanthracene Xiuhui Zhang, Qianshu Li, Justin B. Ingels, Andrew C. Simmonett, Steven E. Wheeler, Yaoming Xie, R. Bruce King, Henry F. Schaefer III and F. Albert Cotton Chemical Communications, 2006, 758 - 760 Abstract

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• Electron affinity （頁面存檔備份，存於互聯網檔案館）, IUPAC 金色書的定義
• Article about Electron Affinity

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