David A. Atwood scite author profile

In a previous review it was predicted that "the reactivity of five-coordinate complexes would certainly be different than that of the four-coordinate derivatives". Structurally and spectroscopically, there is very little difference in the higher-coordinate compounds when compared to the four-coordinate derivatives. However, the prediction was remarkably accurate, if not a bit understated, for the reactivity of these compounds. There appears to be a tremendous potential in catalysis and synthesis for the five-coordinate derivatives, far more possibilities than exist for the lower-coordinate derivatives. Furthermore, the higher-coordinate derivatives are rarely air or moisture sensitive and, thus, may be handled under a wider range of conditions. Although reactions such as oxirane and lactide polymerizations are fairly well-known now with five- and six-coordinate aluminum compounds, the potential of these compounds has only begun to be developed. It is easy to imagine that these types of compounds will see wider use than the related transition-metal compounds.

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Chemical precipitation of heavy metals from acid mine drainage

Matlock

2002

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Land registration in Africa: The impact on agricultural production

1990

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David A. Atwood

Destruction and Detection of Chemical Warfare Agents

Update 1 of: Destruction and Detection of Chemical Warfare Agents

Group 13 Compounds Incorporating Salen Ligands

Chemical precipitation of heavy metals from acid mine drainage

Land registration in Africa: The impact on agricultural production

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