© 2020, Società Italiana di Fisica and Springer-Verlag GmbH Germany, part of Springer Nature.Understanding the production of 26Al is important in nuclear physics, astrophysics (stellar nucleosynthesis), earth sciences and other fields. In previous years, we attempted to measure the 28Si(d,?)26Al reaction cross section at low energies. AMS (Accelerator Mass Spectrometry) at the LEMA (Laboratorio Nacional de Espectrometrometría de Masas con Aceleradores) facility at IFUNAM (Instituto de Física, Universidad Nacional Autónoma de México) was used to measure the concentration of the produced 26Al in a mixture of Al/Si targets after irradiation with a deuteron beam. Those measurements showed that many improvements had to be made to our protocols in order to reach our goal. In this paper, the continuation of those studies is reported. We take advantage of the recently acquired expertise in the radio-chemistry process to separate aluminum from silicon. Deuteron beams with energies between 3.4 and 4.8 MeV were used to irradiate 5 × 5 × 0.3 mm3 silicon slabs. Considering that the Coulomb barrier for touching spheres is around 4.7 MeV, our experiment explores an energy interval near the barrier, on the lower energy side. Here reaction cross sections are much larger than those expected at lower energies, toward the Gamow window, an energy range appropriate to develop and test the project’s strategy before tackling the lower energies (most relevant for astrophysics) where the cross sections drop exponentially.