Molecular Fluidic Electronics

This paper focuses on high-performance, enhanced-functionality molecular fluidic electronics by developing three-dimensional (3D) synthetic molecular electronic devices/modules for neural circuits. We mimic 3D neurobiological topologies documenting that artificial signal processing platforms can be designed within 3D organization/architecture prototyping biological information processing platforms. Motivated by biological-centered hypothesis that neuron is a processing module which processes and stores information, we propose a synthetic molecular electronic device/module. This device mimics brain neurons and cultured neurons can be utilized to synthesize 3D signal processing platforms.