The study of topological matter is one of the most fascinating areas of modern physics. The present Special Issue is focused on the topology- and complex geometry-driven effects of advanced micro- and nanoarchitectures fabricated of conventional and topologically nontrivial materials. The design, production, and characterization of future quantum devices for light emission, quantum cryptography, quantum information processing, thermoelectric applications, bolometry, and other nanotechnologies are of paramount importance. Correspondingly, high-quality experimental and theoretical research has been conducted to obtain a systematic understanding of their properties, thereby leading to novel applications. This Special Issue brings together experts in the field of the topology- and geometrycontrolled functionalization of nanostructured materials of unique technological potential.