Synthesis and Complexation of Nitrogen-rich Materials

Sebastiao, Elena

January 2015

Nitrogen-rich materials are of increasing interests for the development of a wide variety of applications. These compounds are prime candidates for ligands used in the complexation of metals since they possess several lone pairs. Resulting complexes have also exhibited a wide variety of interesting properties, ranging from magnetism to gas absorption to energetic properties. This thesis describes the synthesis and characterisation of new metallic complexes with the known energetic ligands: hydrazine and H3bta, as well as that of a new nitrogen-rich compound: H4ttp. Chapter 2 outlines a series of chains bridged by hydrazine and their potential as initiatory compounds. Mononuclear lanthanide H3bta complexes are presented in Chapter 3. The development of the new nitrogen-rich, tetrazole-based H4ttp ligand is described in Chapter 4. This new ligand was used to synthesise various lanthanide complexes through hydrothermal reactions.

nitrogen-rich

bta

ttp

tetrazole

Synthesis and Characterization of Nitrogen-rich Calcium α-Sialon Ceramics

Cai, Yanbing

January 2009

In this thesis, a synthesis concept has been developed, which uses nitrogen-rich liquid phases for sintering of Ca-α-sialon ceramics. First, keeping the Si/Al ratios constant, the effects of N/O ratio on the properties and microstructure were investigated through a liquid phase sintering process. Second, nitrogen-rich Ca-α-sialon ceramics, with nominal compositions: CaxSi12-2xAl2xN16, x < 2.0, was synthesized and characterized. Third, mechanical and thermal properties of nitrogen-rich Ca-α-sialons were investigated in terms of high temperature deformation resistance,reaction mechanism, phase stability and oxidation resistance, and further correlated to their phase assemblage and microstructure observation. It has been found that increasing the N/O and Ca/Al ratio simultaneously in the materials could result in development of a microstructure with well shaped, high-aspect-ratio Ca-α-sialon grains, and an improvement in both toughness and hardness. For the nitrogen-rich Ca-α-sialon, mono-phasic α-sialon ceramics were obtained for 0.51 ≤ x ≤ 1.32. The obtained Ca-α-sialon ceramics with elongated-grain microstructures show a combination of high hardness and high fracture toughness. Compared with the oxygen-rich Ca-α-sialons, the nitrogen-rich Ca-α-sialons exhibited approximately 150 oC higher deformation onset temperatures and decent properties even after the deformation. The α-sialon phase was first observed at 1400 oC, however the phase pure Ca-α-sialon ceramics couldn’t be obtained until 1800 oC. The nitrogen-rich Ca-α-sialons were thermal stable, no phase transformation observed in the temperatures range1400-1600 oC. In general, mixed α/β-sialon showed better oxidation resistance than pure α-sialon in the low temperature range (1250-1325 oC), while α-sialons with compositions located at α/β-sialon border-line showed significant weight gains over the entire temperature range (1250-1400 oC).

Nitrogen-rich

SiAlON

Sintering

Microstructure

Properties

Inorganic chemistry

Oorganisk kemi