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Abstract:
The article contains sections titled:
1.
Introduction
2.
Hydrides of the Alkali and Alkaline Earth Metals
2.1.
General
2.2.
Lithium Hydride
2.3.
Sodium Hydride
2.4.
Potassium Hydride
2.5.
Beryllium Hydride
2.6.
Magnesium Hydride
2.7.
Calcium Hydride
3.
Binary and Complex Hydrides of the Boron Group
3.1.
General
3.2.
Lithium Tetrahydridoborate
3.3.
Lithium Triethylhydridoborate
3.3.
Lithium Tri-sec-butylhydridoborate
3.4.
Sodium Tetrahydridoborate
3.5.
Sodium Cyanotrihydridoborate
3.6.
Potassium Tetrahydridoborate
3.7.
Aluminum Hydride
3.8.
Lithium Tetrahydridoaluminate
3.9.
Lithium (tri-tert-butoxy)hydrido-aluminate
3.10.
Sodium Tetrahydridoaluminate
3.11.
Sodium bis(2-methoxyethoxy)dihydridoaluminate
3.12.
Diisobutylaluminum Hydride
4.
Hydrides of the Transition Metals
4.1.
Binary Hydrides
4.1.1.
Titanium Hydride
4.1.2.
Zirconium Hydride
4.2.
Intermetallic Hydrides
4.3.
Complex Hydrides of Transition Metals
4.3.1.
Di(η5-cyclopentadienyl)chlorohydridozirconium(IV)
4.3.2.
Carbonylhydrido-tris(triphenylphosphine)rhodium(I)
5.
Use of complex hydrides for organic synthesis
5.1.
Overview
5.2.
Chemoselective Reductions
5.3.
Enantioselective Reductions
6.
Use of metal hydrides for energy storage
6.1.
Hydrogen Storage
6.1.1.
Reversible Hydrogen storage
6.1.2.
Non-reversible Hydrogen storage
6.2.
Thermochemical applications
6.3.
Battery applications
7.
Handling, Storage, and Transportation
8.
Toxicology and Occupational Health