Nitrogen‐Doped Ultrananocrystalline Diamond – Optoelectronic Biointerface for Wireless Neuronal Stimulation

Advanced Healthcare Materials, EarlyView.

Feb 12, 2025 - 10:35
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Nitrogen-Doped Ultrananocrystalline Diamond – Optoelectronic Biointerface for Wireless Neuronal Stimulation

Researchers demonstrate a diamond-based, wireless biointerface capable of generating safe capacitive current under pulsed light illumination in the visible and near-infrared light region. This biointerface is long-lasting and the first among diamond-based electrodes capable of optically-controlled, non-genetic modulation of intracellular calcium dynamics in degenerate rat retinas.

Abstract

This study presents a semiconducting optoelectronic system for light-controlled non-genetic neuronal stimulation using visible light. The system architecture is entirely wireless, comprising a thin film of nitrogen-doped ultrananocrystalline diamond directly grown on a semiconducting silicon substrate. When immersed in a physiological medium and subjected to pulsed illumination in the visible (595 nm) or near-infrared wavelength (808 nm) range, charge accumulation at the device-medium interface induces a transient ionic displacement current capable of electrically stimulating neurons with high temporal resolution. With a measured photoresponsivity of 7.5 mA W−1, the efficacy of this biointerface is demonstrated through optoelectronic stimulation of degenerate rat retinas using 595 nm irradiation, pulse durations of 50–500 ms, and irradiance levels of 1.1–4.3 mW mm−2, all below the safe ocular threshold. This work presents the pioneering utilization of a diamond-based optoelectronic platform, capable of generating sufficiently large photocurrents for neuronal stimulation in the retina.