Anions are formed by electron attachment to helium nanodroplets doped with N2. The most prominent ion series is due to odd-numbered Nm− with 3 ≤ m < 140. Neither N− nor N2− are observed. An appearance energy of 11.5 ± 0.5 eV is measured for N3−. The yield of Nm− averaged over 5 ≤ m ≤ 21 shows an appearance energy of 9 eV, just above the estimated thermodynamic threshold for formation of N3− from electron attachment to small N2 clusters embedded in helium droplets. These findings support the notion that odd-numbered Nm− cluster ions are best characterized as N2 van der Waals clusters with an azide anion chromophore but they are at odds with some theoretical reports. N3−(N2)4 and N3−(N2)11 form local maxima in the abundance distribution, suggesting that these ions are particularly stable. The yield of even-numbered Nm− ions (m ≥ 4) is two orders of magnitude lower, barely exceeding the background level. Several other cluster anion series are observed that involve impurities.
Cite
@article{arxiv.1805.00835,
title = {Nitrogen Cluster Anions},
author = {Nikolaus Weinberger and Johannes Postler and Paul Scheier and Olof Echt},
journal= {arXiv preprint arXiv:1805.00835},
year = {2018}
}