Current Research in Next Generation Materials Engineering
Memory Manipulation via Neuralink-Directed AI Using DNA Origami-Graphene Interfaces and Plasmid Logic Circuits
Abstract
Chur Chin
This paper presents a framework for manipulating memory states—encoding, erasure, and rewriting—within the human brain using Neuralink’s bidirectional neural arrays, guided by AI and enhanced by DNA origami–graphene biocircuits. Drawing on plasmid-based DNA computing models integrated with Google Titan-like persistent memory simulation, the system enables controlled modification of neuronal memory engrams. AI modules—transformer-based and DNA-circuit- guided—coordinate stimulation with feedback loops via evoked potential mapping. DNA origami structures optimize interface biocompatibility and enable molecular tagging for traceable memory rewriting. Graphene enhances signal fidelity and spike detection. This cross-disciplinary system advances real-time neuromodulation, establishing a platform for therapeutic memory editing and adaptive neuroplasticity training.
