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Zintl-Klemm

The compound LisZn2Ge3 can be expressed as SLi , 2Zn, SGe in terms of oxidation numbers, or as 8 Li , 2 Zn, 3 Ge with regard to the Zintl-Klemm concept and valence considerations. It closely relates to Li5AlSi2 and the corresponding [Li3Al3Si 5] hexagonal layer in which Zn and Ge would play the role of A1 and Si. With the Zn vacancy compensated by a Hthium dumbbell, the [Li4ZrL4Gei5] anionic network is isoelectronic. [Pg.153]

The Zintl-Klemm concept evolved from the seminal ideas of E. ZintI that explained the structural behavior of main-group (s-p) binary intermetaUics in terms of the presence of both ionic and covalent parts in their bonding description [31, 37]. Instead of using Hume-Rother/s idea of a valence electron concentration, ZintI proposed an electron transfer from the electropositive to the electronegative partner (ionic part) and related the anionic substructure to known isoelectronic elemental structures (covalent part), e.g., TK in NaTl is isoelectro-nic with C, Si and Ge, and consequenUy a diamond substructure is formed. ZintI hypothesized that the structures of this class of intermetallics would be salt-like [16b, 31 f, 37e]. [Pg.160]

The successful use of the Zintl-Klemm concept in the synthesis of complex intermetallics is represented by the work of Schaefer and co-workers in Darmstadt [41]. The extensive investigations on Zind phases mainly by von Schnering... [Pg.160]

Santamaria-Perez D, Vegas A, Liebau F (2005) The Zintl-Klemm Concept Applied to Cations in Oxides II. The Structures of Silicates 118 79-135... [Pg.225]

G. A. Papoian, R. Hoffmann, Hypervalent bonding in one, two and three dimensions extending the Zintl-Klemm concept to nonclassical electron-rich networks. Angew. Chem. Int. Ed. 39 (2000) 2408. [Pg.253]

A review on mercury and cadmium pentelide halides has appeared,254 with emphasis on discussion of the structures, based on the Zintl Klemm concept, and their relationship to the electronic properties. [Pg.1279]

As mentioned in the Introduction, no structural information on these species was available for more than 40 years after the discovery of the first Zintl metal cluster anions, since no pure crystalline phases could be isolated and characterized structurally. Nevertheless, early efforts to rationalize the observed formulas and chemical bonding of these intermetallics and related molecules utilized the Zintl-Klemm concept [75, 76] and the Mooser-Pearson [77] extended (8 — N) rule. In this rule N refers to the number of valence electrons of the more electronegative metal (and thus anionic metal) in the intermetallic phases. [Pg.18]

The limitations of the simple Zintl-Klemm concept can be illustrated by differences in the two [MT1] intermetallics (M = Na [79] and Cs [80]). Complete electron transfer from M to T1 leads to [ M TI, where the Tl anion with four valence electrons is isoelectronic with a neutral group 14 atom and four bonds and needed to attain the octet configuration. Hence, the Tl- anion should form structures similar to allotropes of carbon or heavier group 14 elements. Indeed, [NaTl] has a stuffed diamond structure [79] with internal Na and an anionic (Tl-) lattice similar to diamond. However, the Tl- anions in [CsTl] form tetragonally compressed octahedra [80] unlike any structures of the allotropes of carbon or its heavier congeners. [Pg.19]

At a first glance the above mentioned electron transfer would require the application of the Zintl concept (designated in a later version as the Zintl-Klemm-Busmann concept [10]) as a tool for understanding the structural properties of alkali and alkaline earth amalgams. In simple words the Zintl concept says that the... [Pg.170]

Zintl ions are polyanions formed by anion clustering in ionic alloys. Two categories were considered those that fit the so-called Zintl-Klemm concept and those that are electron-deficient. [Pg.270]

King, R.B. (2004a) The metallurgist s Periodic Table and the Zintl-Klemm concept. In The Periodic Table into the 21st Century, eds. Rouvray, D.H. and King, R.B (Research Studies Press Ltd, Baldock, Hertfordshire), p. 189. [Pg.314]

Santamarla-Perez D, Vegas A, Liebau F (2005) The Zintl-Klemm Concept Applied to Cations in Oxides II. The Structmes of Silicates. 118 79-135 Schaffer CE (2003) Axel Christian Klixbull Jorgensen (1931-2001) 106 1-5 Schaffer CE, see Anthon C (2004) 107 207-301 Schenker S, see Hauser A (2003) 106 81-96... [Pg.230]

The Zintl-Klemm Concept Applied to Cations in Oxides. [Pg.246]

Abstract This chapter reviews the methods that are useful for understanding the structure and bonding in Zintl ions and related bare post-transition element clusters in approximate historical order. After briefly discussing the Zintl-Klemm model the Wade-Mingos rules and related ideas are discussed. The chapter concludes with a discussion of the jellium model and special methods pertaining to bare metal clusters with interstitial atoms. [Pg.1]

Early Efforts to Rationalize the Structures of the Zintl Ions The Zintl-Klemm Concept... [Pg.3]

Early efforts to rationalize the observed formulas and chemical bonding of Zintl ions and related species used initially the Zintl-Klemm concept [10, 11] and subsequently the Mooser-Pearson [12] extended (8 — AO rule. In this rule, refers... [Pg.3]

The intermetallic phase [26] Na2Tl illustrates a simple application of the Zintl-Klemm concept to a group 13 metal cluster. Complete electron transfer from Na to T1 leads to the (Na" )2Tl formulation. The Tl dianion is isoelectronic with group 15 elements and thus should form similar tetrahedral structures with six two-center two-electron bonds along the edges of the tetrahedron. Indeed, the Tl anions in the Na2Tl phase form Tl4 tetrahedra, similar to the isoelectronic P4 and As4 units in white phosphorus and yellow arsenic. [Pg.4]

For a general formulation of the Zintl-Klemm concept, consider an intermetallic AmX phase, where A is the more electropositive element, t3 pically an alkali or an alkaline earth metal. Both A and X, viewed as individual atoms, are assumed to follow the octet rule leading to transfer of electrons from A to X, i.e., A AF, X —> X , so that mp = nq. The anionic unit X arising from this electron transfer is considered to be a pseudoatom, which exhibits a structural chemistry closely related to that of the isoelectronic elements [11]. Since bonding also is possible in the cationic units, the numbers of electrons involved in A-A and X-X bonds of various types (caa and exx> respectively) as well as the number of electrons e not involved in localized bonds can be generated from the numbers of valence electrons on A and X, namely and ex, respectively, by the following equations of balance ... [Pg.4]

The efforts to rationalize the formulas and structures of Zintl ions and related species predated extensive definitive structural information on anionic post-transition metal clusters obtained by Corbett and his group in the 1970s [8, 9]. After enough such structural information on the bare post-transition metal clusters became available, the resemblance of their polyhedra to the known polyhedral boranes became apparent. For this reason, the simple Zintl-Klemm concept has been largely superseded by newer, more advanced descriptions of chemical bonding in such clusters, initially those applied to the polyhedral boranes. [Pg.4]

Electron count according to the (8-N) rule and the Zintl-Klemm concept... [Pg.42]

See other pages where Zintl-Klemm is mentioned: [Pg.141]    [Pg.142]    [Pg.160]    [Pg.161]    [Pg.188]    [Pg.20]    [Pg.18]    [Pg.19]    [Pg.171]    [Pg.85]    [Pg.268]    [Pg.1]    [Pg.2]    [Pg.3]    [Pg.21]    [Pg.27]    [Pg.31]    [Pg.33]    [Pg.35]    [Pg.94]   
See also in sourсe #XX -- [ Pg.183 , Pg.184 ]



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