Defective Vertices in closo- and nido-Borane Polyhedra
- 7 November 2001
- journal article
- research article
- Published by American Chemical Society (ACS) in Inorganic Chemistry
- Vol. 40 (25) , 6369-6374
- https://doi.org/10.1021/ic0106165
Abstract
Boron polyhedra can be described in terms of the deviation of their local vertex environments from the degree 5 vertices found in ideal icosahedra. Vertices of degrees other than 5 can be considered to be defective vertices. The most favorable structures for borane polyhedra are those in which the defective vertices are isolated as much as possible, similar to the Frank-Kasper polyhedra found in metal alloy structures. Using this criterion, the 9- and 10-vertex borane deltahedra are seen to be more favorable than the other nonicosahedral deltahedra in the boranes B(n)H(n)(2-) (6 < or = n < or = 12) in accord with experimental observations. Extension of such ideas to neutral boron hydrides of the type B(n)H(n+4) accounts for the relatively high stability of B(10)H(14), the formation of metal complexes of B(6)H(10), and the stability of B(18)H(22). In addition, the borane B(12)H(16) is predicted to form stable transition-metal complexes.Keywords
This publication has 39 references indexed in Scilit:
- The polyborane, carborane, carbocation continuum: architectural patternsChemical Reviews, 1992
- A one-step synthesis of tetradecahydroundecaborate(1-) ion from sodium tetrahydroborateInorganic Chemistry, 1978
- Tetradecaborane(18). Preparation and structureInorganic Chemistry, 1975
- Examples of three-center transition metal to boron bonding. Hexaborane(10) complexesJournal of the American Chemical Society, 1974
- Preparation, isolation, and structure of [NBu4]+[µ-Fe(CO)4-B7H12]–; preparation and isolation of Fe(CO)4B7H11: electrophilic stabilization of a heptaborane speciesJournal of the Chemical Society, Chemical Communications, 1974
- Protonation of the neutral boron hydrides hexaborane(10) and 2-methylhexaborane(10)Journal of the American Chemical Society, 1972
- Crystal and molecular structure of hexadecaborane(20)Inorganic Chemistry, 1970
- Molecular, Crystal, and Valence Structures of B18H22The Journal of Chemical Physics, 1963
- Molecular and Crystal Structure of B6H10The Journal of Chemical Physics, 1958
- The Pyrolysis of Diborane and the Synthesis of Pentaborane1Journal of the American Chemical Society, 1951