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Nanjing Tech University has established itself as a dynamic research powerhouse at the intersection of soft robotics, flexible electronics, advanced materials, and intelligent control systems. The institution's research portfolio reveals a distinctive strength in developing next-generation smart materials and devices that bridge fundamental materials science with real-world robotic and biomedical applications. At the heart of Nanjing Tech's contributions lies pioneering work on soft actuators and biomimetic robotics. Researchers have engineered remarkable stimulus-responsive systems — including carbon nanotube bilayer composites, MXene-based films, and black phosphorus heterostructures — capable of mimicking sophisticated biological motions through sunlight, electricity, and other environmental cues. These contributions have collectively garnered hundreds of citations, reflecting their outsized influence on the global soft robotics community. Equally impressive is the university's expertise in flexible and stretchable electronics. From self-healing hydrogel thermistors and all-graphene electronic skins to 3D-printed ionotronic devices and breathable multimodal e-skins, Nanjing Tech researchers have consistently pushed the boundaries of wearable and implantable technology. Their work on stretchable organic semiconductors and strain sensors has become foundational reading for engineers designing human-machine interfaces and prosthetic systems. The institution also demonstrates notable strength in intelligent control and autonomous systems, contributing advances in adaptive sliding mode controllers for electro-hydraulic servo systems, robotic excavator trajectory control, and comprehensive frameworks for autonomous vehicle path planning. With highly cited publications spanning Nature-family and advanced materials journals, Nanjing Tech offers prospective students and collaborators a uniquely interdisciplinary environment where materials innovation, robotic actuation, and intelligent systems converge to address some of the most compelling engineering challenges of our time.