Ions in Crystals: The Topology of the Electron Density in Ionic Materials. Ⅲ. Geometry and Ionic Radii

A. Martín Pendás; Aurora Costales; Víctor Lua#a

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Ions in Crystals: The Topology of the Electron Density in Ionic Materials. Ⅲ. Geometry and Ionic Radii

机译：晶体中的离子：离子材料中电子密度的拓扑。 Ⅲ。几何和离子半径

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We present the application of Bader's topological analysis of the electron density to geometric properties in ionic materials. Particular attention is paid to the concept of ionic radius, in relation to the shapes of ions in crystals, and to the various correlations among atomic properties, i.e., electronegativities, deformabilities, etc., that it induces. Using a simple model to fit our results to a theoretical frame, we show that ionic bonds display properties in complete parallelism to those known in covalent bonds. This allows us to define unambiguosly the strength of an ionic bond, which is found to correspond to Pauling's bond valence.

机译：我们介绍了电子密度的Bader拓扑分析对离子材料的几何性质的应用。特别注意与晶体中离子的形状有关的离子半径的概念，以及引起的原子性质，即电负性，可变形性等之间的各种相关性。使用一个简单的模型使我们的结果与理论框架相符，我们表明离子键与共价键中已知的键具有完全平行的性质。这使我们能够明确定义离子键的强度，该离子键的强度对应于鲍林的键价。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |1998年第36期|共12页
作者
A. Martín Pendás; Aurora Costales; Víctor Lua#a;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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1. Ions in Crystals: The Topology of the Electron Density in Ionic Materials. Ⅲ. Geometry and Ionic Radii [J] . A. Martín Pendás, Aurora Costales, Víctor Lua#a The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 1998,第33a36期

机译：晶体中的离子：离子材料中电子密度的拓扑。 Ⅲ。几何和离子半径
2. Ions in Crystals: The Topology of the Electron Density in Ionic Materials. 4. The Danburite (CaB_2Si_2O_8) Case and the Occurrence of Oxide-Oxide Bond Paths in Crystals [J] . Victor Luana, Aurora Costales, Paula Mori-Sanchez, The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2003,第21期

机译：晶体中的离子：离子材料中电子密度的拓扑。 4.晶体（CaB_2Si_2O_8）的情况和晶体中氧化物-氧化物键路径的发生
3. Ions in crystals: The topology of the electron density in ionic materials. V. The B1-B2 phase transition in alkali halides [J] . Blanco MA., Pendas AM., Luana V., Physical Review, B. Condensed Matter . 2000,第18期

机译：晶体中的离子：离子材料中电子密度的拓扑。五，碱金属卤化物中的B1-B2相变
4. Density-functional Calculation of Structural Properties in Ionic and Semiconductor Crystals [C] . Karin Schmalzl, Gernot Deinzer, Michael Malorny, Joint HLRB and KONWIHR Status and Result Workshop . 2005

机译：离子和半导体晶体中结构特性的密度函数计算
5. Crystallographic models for the coordination geometry and electronic relaxation mechanisms of lanthanide(III) complexes in the ionic liquid BMICl [D] . Han, Yulun 2013

机译：离子液体BMICl中镧系元素（III）配合物的配位几何和电子弛豫机理的晶体学模型
6. Electric Fields Produced by a Charge Density in Ionic Crystals [O] . Herbert S. Bennett 1968

机译：离子晶体中电荷密度产生的电场
7. Modeling of lattice constant and their relations with ionic radii and electronegativity of constituting ions of AXY cubic crystals (A=K, Cs, Rb, Tl; X=tetravalent cation, Y=F, Cl, Br, I) [O] . Brik, M.G., Kityk, I.V. 2011

机译：AXY立方晶体（A = K，Cs，Rb，Tl； X =四价阳离子，Y = F，Cl，Br，I）的晶格常数建模及其与离子半径和构成离子的电负性的关系
8. Properties of Conduction Electrons in Ionic Crystals [R] . Kahn, D. 1965

机译：离子晶体中导电电子的性质

Ions in Crystals: The Topology of the Electron Density in Ionic Materials. Ⅲ. Geometry and Ionic Radii

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