Duke’s ECE Ph.D. pushes boundaries in nano-electronics, photonics, and cyber-physical systems. Doctoral researchers tape-out RISC-V accelerators for homomorphic encryption, design terahertz metasurface antennas for 6 G, and prototype brain–computer-interface ASICs in Duke’s world-class cleanroom. Industry co-ops and policy electives turn deep tech into secure, ethical, and green products.
Terahertz beam-steering array for holographic telepresence
Neuromorphic FPGA implementing spiking-neural anomaly detection
Battery-free BLE sensor nodes harvesting RF energy
Silicon-photonics switch fabric for data-center interconnects
Quantum-random-number generator on a photonic chip
ML-based RF interference canceller for dense IoT deployments
Edge-AI camera classifying crop pests with federated updates
Micro-supercapacitor integration for rapid-charge wearables
Cyber-physical co-simulator for smart-grid attack resilience
Blockchain-secured firmware-update protocol for drones
Brain-computer interface decoding imagined handwriting
Policy white paper on global spectrum governance for 6 G
Invent the circuits and codes powering tomorrow at Duke ECE.
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