Commonly Used Hydride Reagents. Several forms of hydride (H-) find use in organic chemistry, including NaH, CaH 2, LiAlH 4, NaBH 4, and NaBH 3 CN (and.

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Commonly Used Hydride Reagents

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Commonly Used Hydride Reagents

Several forms of hydride (H-) find use in organic chemistry, including NaH, CaH 2, LiAlH 4, NaBH 4, and NaBH 3 CN (and several others). The reactivity of hydride varies considerably, depending on the nature of the element to which it is attached. It can function as either a base (e.g. NaH) or as a nucleophile (particularly toward addition to the carbonyl (C=O) group) when formulated as LiAlH 4 and NaBH 4. Hydride acting as a base. Hydride acting as a nucleophile toward the carbonyl group.

H 2 has a pKa value of 42, thus the conjugate base (hydride) is extremely strong, easily deprotonating alcohols, for example. Sodium Hydride, NaH, is used exclusively as a strong base. Calcium Hydride, CaH 2, is used nearly exclusively as a drying agent, reacting with moisture in solvents to generate hydrogen gas and calcium hydroxide. The solvent is then distilled to separate the dry solvent from the solid calcium hydroxide. One needs to handle more reactive forms of hydride (e.g. NaH and LiAlH 4 ) extremely carefully, since reaction with water or alcohols will generate hydrogen gas with enough exothermicity to start a fire (or cause an explosion).

Reactions of NaH Sodium hydride is relatively insoluble, and is usually used in DMF or THF solvent.

EWG = Electron Withdrawing Group, C=O, CN, etc. NaH is used almost exclusively as a base (not as a nucleophile) to generate oxygen, nitrogen, and carbon anions.

Williamson Ether Synthesis

Reactions of Lithium Aluminum Hydride LiAlH 4 is more soluble and can be used in the solvents diethyl ether or THF.

Lithium Aluminum Hydride is a potent reducing agent.

Reactions of Sodium Borohydride Sodium borohydride (NaBH 4 ) is both less reactive and less soluble than LiAlH 4. Thus, it is frequently used in alcoholic solvents, although it has a limited lifetime in such solvents (due to its reaction as a base with the ROH.)

NaBH 4 is less reactive than LiAlH 4 and does not reduce esters or amides

Notice that NaBH 4 can selectively reduce ketone in presence of ester and epoxide.

Notice that NaBH 4 can reduce ketone in presence of ester (and aziridine)