Synthesis and Reactivity of the Carbaalanes (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>C<INF>5</INF>H<INF>4</INF>FeC<INF>5</INF>H<INF>5</INF>)<INF>6</INF> and (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>Ph)<INF>6</INF>:  X-ray Crystal Structure of (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>C<INF>5</INF>H<INF>4</INF>FeC<INF>5</INF>H<INF>5</INF>)<INF>6</INF>

The synthesis of the aluminum carbide clusters (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>C<INF>5</INF>H<INF>4</INF>FeC<INF>5</INF>H<INF>5</INF>)<INF>6</INF> (<BO>1</BO>), containing an assembly of ferrocenylmethylene substituents, and (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>Ph)<INF>6</INF> (<BO>2</BO>) was carried out by the hydroalumination of FcC&tbd1;CH (Fc = ferrocenyl) and (PhC&tbd1;C)<INF>3</INF>Al·NMe<INF>3</INF>, respectively, with AlH<INF>3</INF>·NMe<INF>3</INF>. Compound <BO>1</BO> is made up of an Al−C framework with eight aluminum atoms occupying the corners of a rhombic cube while the six carbon atoms cap the faces of the cube. The reaction of (AlH)<INF>6</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>Ph)<INF>6</INF> (<BO>2</BO>) with FcC&tbd1;CH and PhC&tbd1;CH leads to the formation of (AlH)<INF>2</INF>(FcC&tbd1;CAl)<INF>4</INF>(AlNMe<INF>3</INF>)<INF>2</INF>(CCH<INF>2</INF>Ph)<INF>6</INF> (<BO>3</BO>) and (PhC&tbd1;C)<INF>3</INF>Al·NMe<INF>3</INF> (<BO>4</BO>), respectively. Reaction of <BO>4 </BO>with AlH<INF>3</INF>·NMe<INF>3</INF> results in the formation of <BO>2</BO>.