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Boron—phosphorus bonds

The structure of this adduct has been determined by X-ray diffraction 144> and confirms the 2112 topology of the B4Hg framework. Furthermore, in agreement with the original conclusion 143>, the adduct contains a boron-phosphorus bond rather than a boron-nitrogen bond. [Pg.36]

Element-element bonds, addition to G-G multiple bonds arsenic—selenium bonds, 10, 782 boron—boron bonds, 10, 727 boron—sulfur bonds, 10, 778 B-S and B-Ge bonds, 10, 758 chalcogen—chalcogen additions, 10, 752 germanium—germanium bonds, 10, 747 germanium-tin bonds, 10, 780 overview, 10, 725-787 phosphorus—phosphorus bonds, 10, 751 phosphorus—selenium bonds, 10, 782 phosphorus-sulfur bonds, 10, 781 Se-Si and Se-Ge bonds, 10, 779 silicon-germanium bonds, 10, 770 silicon-phosphorus bonds, 10, 780 silicon-silicon bonds, 10, 734 silicon-sulfur bonds, 10, 779 silicon-tin bonds, 10, 770 tin-boron bonds, 10, 767 tin-tin bonds, 10, 748... [Pg.101]

Homonuclear carbonyl dimers, palladium complexes, 8, 206 Homonuclear element-element bonds, addition to C-C multiple bonds boron-boron bonds, 10, 727 chalcogen-chalcogen additions, 10, 752 germanium-germanium bonds, 10, 747 phosphorus-phosphorus bonds, 10, 751 silicon—silicon bonds, 10, 734 tin—tin bonds, 10, 748... [Pg.120]

Phosphorus—phosphorus bonds, addition, to alkynes, 10, 751 Phosphorus rings, chromium carbonyl link arsenic rings, 5, 226 As, Sb, Se, Te, Sn rings, 5, 226 boron rings, 5, 222 carbon rings, 5, 224 characteristics, 5, 221 oxygen rings, 5, 227... [Pg.170]

Tertiary phosphines substituted at the -carbon by electronegative groups, e.g. (56), react with boron trihalides to give products derived from carbon-phosphorus bond cleavage. Phosphines containing only hydrocarbon groups do not react. [Pg.14]

The chemistry of boron-phosphorus compounds has been reviewed. Numerous boron-phosphorus derivatives have been reported, but relatively few boron-arsenic or boron-antimony compounds have been described. Boron-phosphorus compounds are similar in many ways to boron - nitrogen derivatives, but the tendency to share bonding electrons in covalent tetrahedral compounds is much more evident with phosphorus than with nitrogen. In fact, most boron-phosphorus chemistry involves tetrahedral boron. They are typically either phosphine-borane complexes, such as RgP-BRj, or phosphinoboranes (R2PBR 2) , cyclic or polymeric derivatives of the hypothetical H3P BH3. The chemistry of these compounds and that of boron phosphate and thiophosphate is described below. Boron phosphides are discussed in Section 2.6. [Pg.436]

See other pages where Boron—phosphorus bonds is mentioned: [Pg.28]    [Pg.341]    [Pg.282]    [Pg.33]    [Pg.33]    [Pg.33]    [Pg.28]    [Pg.341]    [Pg.282]    [Pg.33]    [Pg.33]    [Pg.33]    [Pg.927]    [Pg.927]    [Pg.27]    [Pg.33]    [Pg.35]    [Pg.39]    [Pg.197]    [Pg.50]    [Pg.181]    [Pg.84]    [Pg.41]    [Pg.118]    [Pg.199]    [Pg.199]    [Pg.438]    [Pg.25]    [Pg.23]    [Pg.294]    [Pg.301]   


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Boron silicon-phosphorus bonds

Boron-carbon bonds phosphorus hydrides

Boron—phosphorus bonds reaction with

Phosphorus bonding

Phosphorus boron-carbon bonds

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