We design, develop, and study next-generation sensor systems by merging materials science, flexible electronics, and sustainable engineering. Our work focuses on creating highly sensitive, unobtrusive, and environmentally friendly sensing technologies that can be seamlessly integrated into everyday settings — from the human body to natural environments and food systems. We advance printed, flexible, and biodegradable sensor platforms capable of detecting physical, chemical, and biological parameters with high precision. Our research covers a broad range of technologies, including printed bio- and chemical sensors, flexible thin-film transducers, novel sensing materials, low-power signal acquisition, and autonomous sensing nodes with integrated energy harvesting and communication.
Through these technologies, we address applications such as wearable physiological monitoring, precision agriculture, food quality and safety assessment, environmental surveillance, and distributed IoT sensing. Our goal is to enable scalable, autonomous, and sustainable sensing solutions that capture richer, more accurate information about the world — ultimately contributing to smarter systems, improved decision-making, and a deeper understanding of complex environments.