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Boron hydride
Norman Greenwood
Scientist
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Views | Duration | |
|---|---|---|---|
| 141. Work on inert gases | 37 | 04:26 | |
| 142. Introduction to my hydride work | 36 | 00:48 | |
| 143. Aluminium hydride | 43 | 00:48 | |
| 144. Boron hydride | 52 | 02:04 | |
| 145. Bob Parry's similar boron work | 35 | 01:11 | |
| 146. No publication restrictions on research at Newcastle | 36 | 00:38 | |
| 147. Other people's interest in hydrides | 28 | 00:53 | |
| 148. Harry Emeléus was the first to make decaborane | 40 | 00:47 | |
| 149. Motivation for working on gallium hydride | 56 | 01:02 | |
| 150. Making gallium hydride | 44 | 00:56 |
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In the hydride field, in particular, we were looking at the hydrides of boron, aluminium and gallium. The boron work had actually started in Nottingham with John Morris and John Wright, and they did some very nice work of adding borane, BH3, to unsaturated organic compounds, which was not unlike the Herb Brown work on hydroboration. But we didn’t pursue that further when I went to Newcastle.
In Newcastle we went more on the chemistry of the higher boron hydrides, and particularly in later years on metalloboranes. That is an interesting field. If one thinks that boron is the element immediately before carbon in the periodic table, so it has the same number of orbitals, but one too few electrons, and that has developed into a concept of electron-deficient compounds, but as Riley Schaeffer once said, ‘There’s no such thing as an electron-deficient compound, only a theory-deficient chemist’, and we took that very much on board – there was the right number for the structures that were being involved.
Now, one had the view that, even so, there were fewer electrons available for bonding, and so the boranes appeared to be electron acceptors, that would be their natural thing. We developed a concept of boranes as ligands, and that was an entirely novel thing.
Norman Greenwood (1925-2012) was born in Australia and graduated from Melbourne University before going to Cambridge. His wide-ranging research in inorganic and structural chemistry made major advances in the chemistry of boron hydrides and other main-group element compounds. He also pioneered the application of Mössbauer spectroscopy to problems in chemistry. He was a prolific writer and inspirational lecturer on chemical and educational themes, and held numerous visiting professorships throughout the world.
Title: Boron hydride
Listeners: Brian Johnson
Professor Brian FG Johnson FRS, FRSE, FRS Chem, FAcad Eu, FAS. Professor of Inorganic Chemistry University of Edinburgh 1991-1995, Professor of Inorganic Chemistry University of Cambridge 1995-2005, Master Fitzwilliam College Cambridge 1999-2005. Research interests include studies of transition metal carbonyls, organometallic chemistry, nano- particles and homogeneous catalysis. Professor Johnson is the author of over 1000 research articles and papers.
Tags: Nottingham University, Newcastle University, John Morris, John Wright, Herbert Brown, Riley Schaeffer
Duration: 2 minutes, 4 seconds
Date story recorded: May 2011
Date story went live: 25 November 2011
