Gas-phase reactions of negative ions with trimethylaluminium: Formation and reactivity of the Me3AlH− ion

Nestive ions zue shown to lad to so!vated ions in 'he \_ms phzsse by rcsction with estew of formic acid w&n two requirements ar"-mat: (1) the bond energy of the cluster is grezter than 9.3 kczljmole, and (2) the proton nfimity of the negative ion is gcater tisn 3:9 kcaliniole. A likely mechanism for

The reactions of o-, m-and p-benzyne anions and the phenide ion with a series of neutral reagents are described. The m-and p-benzyne anions display similar behavior towards acids, NO and , analogous to that of phenide ion but clearly di †erent from that of o-benzyne anion. The strongly basic and nu

The gas-phase ion-molecule reactions of the phosphonium ion formed by electron impact with OP(OCH 3 ) 2 ' neutral trimethyl phosphite were studied with the use of a quadrupole ion trap (QIT) mass spectrometer. Observed reactions include competing methoxy transfers between and the neutral species to

Ion-molecule reactions occurring in Cr(CO)\*, Fe(CO),, and Mns(C0) !,, systems are carried out in a Fourier transform ion cyclotron resonance (FTICR) spectrometer. Abundant intensities of bare metal cluster ions can be formed by employing a multiple pulse sequence including selective ejections and p