| 11. | This reaction produces four different substitution of methyl with hydrogen on diborane.
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| 12. | Monomethyldiborane ends up at equilibrium with a mixture of diborane and dimethyldiborane.
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| 13. | This reaction produces four different substitutions of methyl with hydrogen on diborane.
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| 14. | Diborane and decaborane and their derivates were also investigated.
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| 15. | The latter is maximised when trimethylborane is six times the concentration of diborane.
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| 16. | Diborane adopts a D 2h structure containing four terminal and two bridging hydrogen atoms.
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| 17. | Borinic acid can be formed as the first step in the hydrolysis of diborane.
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| 18. | It is also formed as a by product of hydrolysis of boron trihalides and diborane:
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| 19. | The molecule displays reactivity reminiscent of diborane.
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| 20. | Another example is hydroboration reaction, in which " diborane " adds to an alkene.
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