with organic esters. Lappert 328 , 329 on the basis of infrared studies has shown that on

coordination of an organic ester with Lewis acids like boron trichloride, the electron

density on the carbonyl oxygen atom appears to be reduced and, hence, that this should

be a more probable donation site for the ester. This mechanism involving coordination

of the carbonyl oxygen of the ester rather than its alkoxo oxygen would appear to be

less prone to steric hindrance than the alcohol interchange, as actually observed by

Mehrotra. 293

2.9 Reactions of Metal Dialkylamides M(NR 2 ) x (R = Me, Et, SiMe 3 )with

Alcohols (Method I)

2.9.1

Derivatives without Metal-Metal Bonds

Metal

dialkylamides

are

reactive

toward

alcohols,

readily

eliminating

an

amine

according to Eq. (2.101):

M(NR 2 x C x R 0 OH ! M(OR 0 x C x R 2 NH "

2 . 101

This method is particularly suitable for those metals which have a greater affinity for

oxygen than for nitrogen. The other advantage of this procedure is the generally higher

volatility of the liberated dialkylamines, which can readily be volatilized out.

The reactions of the type of Eq. (2.101) have often been employed in the synthesis

of metal alkoxides when other routes are either inapplicable or tedious. Historically,

this method was first investigated by Jones et al . 213 for the preparation of uranium

tetralkoxides U(OR) 4 (R D Me, Et) from U(NEt) 4 and alcohols. For the synthesis

of U(OBu t ) 4 Jones et al . 213 adopted the modified procedure of interacting uranium

tetrachloride with ammonia and/or potassium amide and tert -butyl alcohol:

4Bu t OH

! U OBu t 4 C 4NH 3 "

UCl 4 C 4KNH 2 ! [U NH 2 4 ]

" 2H 2

4K C 4NH 3 liquid

2 . 102

Interestingly, the reaction of U(NEt 2 ) 4 with excess of tert -butyl alcohol affords the

complex U 2 (OBu t ) 8 (Bu t OH): 330

2U NEt 2 4 C 9Bu t OH ! U 2 OBu t 8 Bu t OH C 8Et 2 NH "

2 . 103

Thomas 331 utilized this method for preparation of a number of difficult-to-synthe-

size metal alkoxides M(OR) 4 (especially when R D Bu t ), e.g. Zr(OBu t ) 4 from

Zr(NEt 2 ) 4 ,V(OBu t ) 4 from V(NMe 2 ) 4 , Cr(OBu t ) 4 from Cr(NEt 2 ) 4 ,Sn(OBu t 4 and

Sn(OPr i ) 4 .Pr i OH from Sn(NMe 2 ) 4 .

Thomas 331 prepared tantalum and niobium penta-alkoxides by the method of

Eq. (2.101). For example, the alcoholysis of tris-(dialkylamido) monoalkylimidotan-

talum yielded pentaalkoxides very conveniently:

RNDTa(NR 2 3 C 5ROH ! Ta(OR) 5 C 3R 2 NH "CRNH 2 "

2 . 104

However, Nb(NEt 2 ) 4 reacted with alcohols to form compounds of the type Nb(OR) 4

which were oxidized instantaneously (even after the rigorous exclusion of oxygen)