Investigating new reactions for coordinated dinitrogen

Park, Rosa

11 1900

The chemistry of the tantalum dinitrogen complex ([NPN]Ta)₂‚‚(μ-H)₂‚‚(μ-η¹:η²-N₂‚‚)Ta-[NPN], 1, (where [NPN] represents the acyclic tridentate ligand [(PhNSiMe₂‚‚CH₂‚‚)₂‚‚-PPh]²‚‚-), with primary alkenes, group IV and V metallocene complexes, and GaCp* is explored. The reaction of 1 with 1-pentene and 1-hexene occurs via olefin-insertion into the metal-hydride bond to give two new complexes, ([NPN]Ta(CH₂)₄CH₃)₂‚‚(μ-η¹:η¹-N₂‚‚), 10, and ([NPN]Ta(CH₂‚‚)₅CH₃)₂‚‚(μ-η¹:η¹-N₂‚‚), 11, which were characterized using NMR spectroscopy. The solid-state structure of 11 was established and revealed that N₂ has been transformed into a bridging end-on mode. In contrast to its G symmetry in solution, the solid-state structure of 11 is C, symmetric; a VT-NMR study was performed and showed that 11 exists as an equilibrium between two isomers in solution: a C, symmetric isomer 11A,which is the predominant isomer at room temperature, and a C, symmetric isomer 11B,which is the minor isomer. The reactivity of 1 with group IV and V metallocenes was investigated. The reaction of 1 with Cp₂‚‚Hf(PMe₃)(η²-Me₃SiCCSiMe₃) produces [N(μ-P=N)N]Ta(μ-H)₂(μ-N(Hf-Cp₂‚‚))Ta[NPN], 14, in which N₂ is cleaved and new Hf-N and P=N bonds have formed. The reaction of 1 with group V metallocene hydrides Cp₂‚‚MH₃ (M Nb, Ta) was also attempted however these complexes do not react with 1. The reaction of 1 with GaCp* produces a new complex, [NPN]Ta(μ-N(GaCp*))Ta(=NPμ)[NPIA,-N], 18, which was characterized using NMR spectroscopy. Complex 18 decomposes over several days in solution, and one product of decomposition that was isolated was [(PhNH)(NPμ-N)Ta]₂‚‚, 19. The solid-state structure of 19 showed that the [NPN] ligand was cleaved at the N-Si bond, similar to that observed for the reaction of 1 with 9-BBN and HB(C₆H₅)₂‚‚. A mechanism for the formation of complexes 18 and 19 is proposed.

Chemistry

Nitrogen fixation

Differentiation of plasmids in marine diazotroph assemblages determined by randomly amplified polymorphic DNA analysis

Beeson, Keri Elizabeth

08 1900

No description available.

Nitrogen Fixation

Plasmids

Niobium dithiocarbamates : structural and solution studies in relation to a bridged-dinitrogen complex

Stephens, Alan Nicholas

January 1988

No description available.

546

Nitrogen fixation chemistry

Blue-green algal nitrogen fixation associated with deepwater rice in Bangladesh

Aziz, Abdul

January 1985

The morphology and nitrogenase activity (ARA) of Gloeotrichia pisum Thur. growing on deepwater rice were studied in situ at Sonargaon, Bangladesh, and compared with results from laboratory studies. The alga showed obvious similarities and dissimilarities. Hairs, gas vacuoles and akinetes, which were found in the field, were not found In the laboratory, even though the influences of quantity and quality of light flux and nutrient deficiency were tested. The response of nitrogenase to changes in light flux was rapid. A reduction in flux brought about similar results in the field and In the laboratory. Diel changes in nitrogenaee activity showed a maximum at mid-day In the presence of maximum light flux, but considerable activity (3.7% of dally total) took place at night. The activity In a medium free of combined carbon by bacteria free G. pisum indicates that the rate and duration of nitrogenase activity in the dark depend on the preceding light conditions. In batch culture, higher nitrogenase activity was observed when dark-grown alga was reilluminated, than the maximum activity ever found under continuous Illumination. The variation of nitrogenase activity in batch culture was studied in relation to the growth characteristics and developmental stages of the alga. Maximum activity (1.4 nmol C(_2)H(_4) µg ch1 a(^-1) min(^-1)), was observed after about one day of growth under continuous light. During this period, juvenile filaments were abundant (hence maximum heterocyst frequency), cyanophycin granules lacking and cultures had the lowest ch1 a : d. wt ratio. Heterocyst differentiation occurred between 14 and 24 h of growth and cell division was observed only after heterocyst differentiation. It appears that the juvenile filament is the most active nitrogen fixer during the life cycle of the alga. Reasons for low nitrogenase activity of about 0.352 nmol C(_2)H(_4) µg ch1 a(^-1) min (^-1) in the field have been discussed. It is estimated from diel changes in N(_2)-fixing activity and based on ARA of 77.4 nmol C(_2)H(_4) tiller(^-) min(^-1) and(^2) using some approximations, that G. pisum contributed about 4 kg N ha(^-1) season" in deepwater rice fields at Sonargaon in 1983.A brief morphological study was also Included. In the field, rapid colonization was observed on freshly submerged rice culms. Colonies contained Intersheath spaces on their periphery and exhibited zonation of filaments. In the larger ones. The mechanism of the formation of a radiating colony in the laboratory has been described and discussed. Differentiation of a hormogonium into a filament was studied in batch culture. The basal youngest cell differentiated into a heterocyst, whilst the rest of cells divided repeatedly, forming several groups of cells in a row. Subsequently most of these groups of cells were liberated successively as hormogonia.

611

Algal nitrogen fixation

Studies of the Alnus crispa var. mollis Fern. root nodule symbiosis.

Lalonde, Maurice.

January 1974

No description available.

Root-tubercles

Nitrogen -- Fixation

Nitrogen fixation by three tropical forage legumes and the utilization of legume-fixed nitrogen by their associated grasses

Whitney, A. S (Arthur Sheldon), 1933

January 1966

Typescript. / Thesis (Ph. D.)--University of Hawaii, 1966. / Bibliography: leaves 109-117. / viii, 117 l mounted illus. (part col.), tables

Nitrogen -- Fixation

Legumes

Grasses

Investigating new reactions for coordinated dinitrogen

Park, Rosa

11 1900

The chemistry of the tantalum dinitrogen complex ([NPN]Ta)₂‚‚(μ-H)₂‚‚(μ-η¹:η²-N₂‚‚)Ta-[NPN], 1, (where [NPN] represents the acyclic tridentate ligand [(PhNSiMe₂‚‚CH₂‚‚)₂‚‚-PPh]²‚‚-), with primary alkenes, group IV and V metallocene complexes, and GaCp* is explored. The reaction of 1 with 1-pentene and 1-hexene occurs via olefin-insertion into the metal-hydride bond to give two new complexes, ([NPN]Ta(CH₂)₄CH₃)₂‚‚(μ-η¹:η¹-N₂‚‚), 10, and ([NPN]Ta(CH₂‚‚)₅CH₃)₂‚‚(μ-η¹:η¹-N₂‚‚), 11, which were characterized using NMR spectroscopy. The solid-state structure of 11 was established and revealed that N₂ has been transformed into a bridging end-on mode. In contrast to its G symmetry in solution, the solid-state structure of 11 is C, symmetric; a VT-NMR study was performed and showed that 11 exists as an equilibrium between two isomers in solution: a C, symmetric isomer 11A,which is the predominant isomer at room temperature, and a C, symmetric isomer 11B,which is the minor isomer. The reactivity of 1 with group IV and V metallocenes was investigated. The reaction of 1 with Cp₂‚‚Hf(PMe₃)(η²-Me₃SiCCSiMe₃) produces [N(μ-P=N)N]Ta(μ-H)₂(μ-N(Hf-Cp₂‚‚))Ta[NPN], 14, in which N₂ is cleaved and new Hf-N and P=N bonds have formed. The reaction of 1 with group V metallocene hydrides Cp₂‚‚MH₃ (M Nb, Ta) was also attempted however these complexes do not react with 1. The reaction of 1 with GaCp* produces a new complex, [NPN]Ta(μ-N(GaCp*))Ta(=NPμ)[NPIA,-N], 18, which was characterized using NMR spectroscopy. Complex 18 decomposes over several days in solution, and one product of decomposition that was isolated was [(PhNH)(NPμ-N)Ta]₂‚‚, 19. The solid-state structure of 19 showed that the [NPN] ligand was cleaved at the N-Si bond, similar to that observed for the reaction of 1 with 9-BBN and HB(C₆H₅)₂‚‚. A mechanism for the formation of complexes 18 and 19 is proposed.

Chemistry

Nitrogen fixation

Nodulation and nitrogen fixation in Medicago species at low pH / by Yulin Lestari.

Lestari, Yulin

January 1993

Bibliography: leaves 151-177. / xxiii, 177 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Science, 1993

Medicago.

Nitrogen Fixation.

The role of calcium and acetate in nitrogen fixation by azotobacter vinelandii

Bush, James Allen,

January 1959

Thesis (Ph. D.)--University of Wisconsin--Madison, 1959. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves [94]-103).

Nitrogen fixation by subcellular particles of Azotobacter vinelandii

Jose, Alvin Gustav.

January 1962

Thesis (M.S.)--University of Wisconsin--Madison, 1962. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves [27]-30).

Azotobacter. Nitrogen-fixation.