Gaseous cation chemistry and chain-length effects in electron ionization and collision-induced dissociation mass spectra of symmetric 1,n-bis(9-anthracenyl)alkanes

The behavior of the gaseous cations resulting from EI (30 and 70 eV) of the bichromophoric title compounds 1–5 (for n = 1–5, respectively) is examined by ion‐trap mass spectrometry, including collision‐induced dissociation (CID) with variation in collision energy. These results are compared with those from anthracene and 9‐methylanthracene and with previously reported mass spectrometric results for 3 and dicarbazolylalkanes. Rather than using the kinetic method to obtain ion energetics where the fragmentation mechanism is clear, as commonly done, the method is used here with relative complementary‐ion abundances from CID to test the proposed fragmentation mechanisms using B3LYP calculations of relative ionization energies and optimized geometries of ionic and neutral fragments. Hydrogen migrations are common, and skeletal rearrangements including formation of expanded, fused and spiro rings are proposed in several cases. Of the chain cleavages, α‐homolysis giving C₁₅H₁₁⁺, likely as dibenzotropylium, is most important for each of 1–5 except 3, where β‐cleavage to C₁₆H₁₃⁺ dominates with a proposed methyldibenzotropylium structure. α‐Cleavage was important also in the dicarbazolylalkanes. A previous inference of a McLafferty rearrangement to explain C₁₅H₁₂^+? from 3 is not supported by the present results. The fragmentation behavior of 1–5 depends strongly on n and implies significant interchromophoric interaction between anthracenyl groups. Copyright © 2011 John Wiley & Sons, Ltd.