Substrates have become essential enabling materials for creating lightweight electronic components, particularly supporting advanced telecommunication technologies. This progress is driven by continuous advancements in novel substrate materials and cutting-edge fabrication techniques, pushing the limits of high-frequency device design. This paper explores both the challenges and breakthroughs in 5G mmWave substrate technology, focusing on recent developments in materials, device fabrication, and integration methods that enhance performance and provide an in-depth analysis of the importance of mmWave technology. This paper also highlights the key concerns in substrate design for researchers and academicians to accelerate the invention and commercialization of substrate designs in areas such as antenna engineering and integrated circuit technologies, as well as addressing key issues like scalability, thermal impact in flexible substrates, and AI-driven RSSI-aware beamforming and its implications. Likewise, since matters related to material losses and substrates’ fabrication constraints are increasingly severe at high frequencies, mmWave substrates need to be looked at; therefore, this paper details, as well, the particular issues related to mmWave propagation and manufacturing design processes for high-frequency devices. Aims at optimizing antenna and system reliability by employing advanced strategies and materials, as well as outlining the existing gaps that need clarification to augment 5G mmWave infrastructure and services.
Ali et al. (Wed,) studied this question.