This Review examines fundamental principles and recent breakthroughs in X-ray detection and imaging technologies, with a focus on the interplay between electrical engineering techniques and materials science.

This Perspective discusses the status and challenges of remote epitaxy technology towards industrialization of wide bandgap semiconductors for the future electronics.

Low-Earth orbit constellations and their potential to connect the unconnected are at the forefront of the new space era. This work provides an overview of the low-Earth orbit broadband communications and their integration with 5G and 6G cellular networks.

This Review provides an overview of haptic perception principles and rendering strategies developed for wearable haptics solutions. The Review then revises the scientific literature regarding emerging actuators and device prototypes, and their applications in innovative scenarios focused on, but not limited to, virtual reality (VR).

With traditional scaling metrics struggling to meet emerging tech demands, rethinking compute systems is essential. The NanoIC pilot line, focused on innovation through collaboration of advanced logic, novel memories, and advanced interconnects, aims to fulfill the European Chips Act’s vision for leadership and competitiveness in global semiconductor innovation.

Cryogenic CMOS technology has a crucial role in large-scale integrated circuits and quantum computing. However, effective thermal management of cryo-CMOS presents new challenges, requiring in-depth studies of size effects and coherent modulation of phonon transport, and a rethinking of strategies and analytical tools to properly address these complex physical phenomena.

An article in Nature Communications presents a terahertz communication system for real-world live video transmission applications.

The convergence of spintronics and traditional semiconductor technology marks a critical juncture in the evolution of computing architectures, for which the development of foundation cells become indispensable. Here we discuss the current landscape of spintronics and propose a holistic co-design methodology to integrate spintronic devices into silicon platforms.

Medical microrobots are emerging as cutting-edge technologies in gynaecological healthcare and reproductive medicine, offering novel, non-invasive therapeutic and diagnostic solutions. Here, we discuss their development in the field and the challenges and opportunities in translating the technology from the laboratory to clinical practice.

The future of spintronics hinges on the effective collaboration between academia and industry. Here we explore the crucial role of partnership in advancing research and innovation, highlighting how these collaborations can drive technological breakthroughs in the field of spintronics and facilitate their transition to practical applications.