Kazakhstan). Intense beams of heavy ions of Ne, Ar, Kr, and other elements have been obtained and accelerated in the cyclotron. Various polymer films have been irradiated and several control batches of track membranes have been prepared in a wide range of densities of the openings. The complex is a unifying factor in the development of technologies, science, and science-intensive business and is intended for producing track filters, developing commercial technologies using nano-and microstructures based on nuclear membranes and for creating a scientific environment in Kazakhstan.A specialized complex based on the DTs-60 cyclotron has been developed at the Laboratory of Nuclear Reactions of the Joint Institute for Nuclear Research in collaboration with the Institute of Nuclear Physics of the National Academy of Sciences of Kazakhstan at the Interdisciplinary Scientific and Research Center at the L. N. Gumelev Eurasian National University (Kazakhstan) [1]. The Dts-60 cyclotron is intended for producing intense beams of heavy ions from lithium to xenon with energies from the 0.35 to 1.77 MeV/nucleon. A channel for low-energy ion beams from 10 to 25 kV·charge, which are obtained from an external source of ions of an electron-cyclotron resonance, has also been built at the accelerator.The scientific program of the center is focused mainly on research in solid-state physics, nanotechnology, and surface modification of materials. The cyclotron has three channels for beams of accelerated ions. Each channel has a facility for conducting various investigations. One channel is specialized for the production of track membranes. Obtaining track membranes using heavy-ion accelerators is one of the important directions of application of nuclear technology, capable of combining different disciplines and subject areas and becoming a base for nanotechnology and science-intensive business. Research on developing nuclear filters using heavy-ion beams has been conducted for 25 years using the cyclotrons at the Laboratory of Nuclear Reactions of the Joint Institute of Nuclear Research; methods have been developed for making track membranes on the basis of different polymer materials, and the technological processes for producing them on commercial scales have also been developed.