Go to OpenReview Public Article ORCID homepageFrom Nanotechnology to Topological Quantum Computers: An Interdisciplinary Leap
Abstract: Scientific progress is evolving at an unprecedented pace, led by quantum computers. The Second Quantum Revolution harnesses superposition and entanglement for computation and sensing. Majorana fermions now enable fault‑tolerant topological qubits, while 2D monolayers like graphene revolutionize flexible electronics. Nanotechnology delivers targeted cancer therapies and quantum dots for ultra‑sensitive biomedical imaging. Beyond IT, quantum simulations accelerate drug discovery and materials design. From energy storage to environmental monitoring, these converging advances—quantum, nano, and materials science—are driving a technological explosion unmatched in human history.
External IDs:doi:10.33774/coe-2026-jlpg5
Loading