This lecture discusses advancements in neurotechnology aimed at improving sensory feedback in prosthetic devices. The instructor outlines the evolution of sensory feedback systems, emphasizing the integration of sophisticated sensors in prosthetic hands to enhance the perception of texture and compliance of objects. The lecture highlights the importance of understanding the mechanical properties of materials and how they can be mimicked in artificial devices. The instructor also addresses the role of cognitive load in performance, demonstrating how dual tasks can affect the efficiency of prosthetic use. Various studies are referenced, showcasing the effectiveness of different sensory feedback methods, including invasive and non-invasive approaches. The lecture concludes with a discussion on the future of prosthetic technology, focusing on the need for continuous collaboration between engineers and medical professionals to optimize the design and functionality of prosthetic limbs, ultimately aiming to improve the quality of life for users.