Accession Number : ADA291201

Title :   Inorganic Halogen Oxidizers.

Descriptive Note : Final rept. 1 Jun 91-31 Aug 94,

Corporate Author : ROCKWELL INTERNATIONAL CANOGA PARK CA ROCKETDYNE DIV

Personal Author(s) : Christe, K. O. ; Wilson, W. W.

PDF Url : ADA291201

Report Date : 23 SEP 1994

Pagination or Media Count : 305

Abstract : A research program was carried out in novel energetic materials. This program was highly successful and resulted in 28 major publications. Highlights of this effort include: the characterization of the XeF5(-) anion which is the first example of a pentagonal planar XY5 structure, completion of our work on a quantitative oxidizer strength scale, the synthesis and characterization of new compounds at the limits of coordination and oxidation, such as XeOF5(-), TeOF6(2-), IOF6(-), IF8(-), TeF8(2-), TeF7(-), and XeF7(+), the study of fluxionality and steric repulsion effects in hexa- and hepta- coordinated species, such as IF7, HPF5(-), HSF5, and IOF5, the controlled replacement of two fluorine ligands by one doubly bonded oxygen ligand, studies of the thermal instability of NF5 and the F3(-) anion, the characterization of the N2F(+) cation N(CH3)4N3, H2N3(+) cation and the SF4(-) and SOF4(-) radical anions, the synthesis and characterization of a new Os(+VIII) compound, OsF4O2, theoretical studies on ONOF and a new family of polynitrogen compounds, the synthesis and characterization of the novel PF4(-) anion and it hydrolysis products, and the electrophilic fluorination of CH4 with F(+) equivalent N2F(+) and NF4(+) salts. jg

Descriptors :   *NITROGEN, *OXIDIZERS, *INORGANIC MATERIALS, *HALOGENS, CATIONS, SYNTHESIS, MATERIALS, QUANTUM THEORY, OXYGEN, CHEMICAL BONDS, OXIDATION, FLUORINE, LIGANDS, PLANAR STRUCTURES, STRENGTH(GENERAL), IODINE, REPLACEMENT, HYDROLYSIS, ENERGETIC PROPERTIES, XENON, ANIONS, TELLURIUM, FLUORINATION, OSMIUM.

Subject Categories : Inorganic Chemistry
      Physical Chemistry
      Quantum Theory and Relativity

Distribution Statement : APPROVED FOR PUBLIC RELEASE