Recent Advancements in Graphene-Based Implantable Electrodes for Neural Recording/Stimulation

Alahi, Md Eshrat E.; Rizu, Mubdiul Islam; Tina, Fahmida Wazed; Huang, Zhaoling; Nag, Anindya; Afsarimanesh, Nasrin

doi:10.3390/s23249911

Sensors

2023

DOI: 10.3390/s23249911

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Recent Advancements in Graphene-Based Implantable Electrodes for Neural Recording/Stimulation

Md Eshrat E. Alahi,

Mubdiul Islam Rizu,

Fahmida Wazed Tina

et al.

Abstract: Implantable electrodes represent a groundbreaking advancement in nervous system research, providing a pivotal tool for recording and stimulating human neural activity. This capability is integral for unraveling the intricacies of the nervous system’s functionality and for devising innovative treatments for various neurological disorders. Implantable electrodes offer distinct advantages compared to conventional recording and stimulating neural activity methods. They deliver heightened precision, fewer associate… Show more

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Cited by 2 publications

References 176 publications

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Enhanced Performance of Al, Sb and Al/Sb Nanosheets Designed as Dielectric Lenses for Terahertz Applications

Qasrawi,

Samen

2024

Arab J Sci Eng

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Enhanced Performance of Al, Sb and Al/Sb Nanosheets Designed as Dielectric Lenses for Terahertz Applications

Qasrawi,

Samen

2024

Arab J Sci Eng

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The Optical Parameter Optimization for Brain Implant Alzheimer Sensor Using Phototherapy Angle and Wavelength Simulation (PAWS) Methodology

Cho,

Won,

Kim

et al. 2024

Sensors

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Photonic therapy is emerging as a promising method in neuroscience for addressing Alzheimer’s disease (AD). This study uses computational simulations to investigate the impact of specific wavelengths emitted by photodiodes on the light absorption rates in brain tissue for brain implant sensors. Additionally, it presents a novel methodology that enhances light absorption via multi-parameter optimization. By adjusting the angle and wavelength of the incident light, the absorption rate was significantly enhanced using four photodiodes, each emitting at 660 nm with a power input of 3 mW. Notably, an incident angle of 20 degrees optimized light absorption and minimized thermal effects on brain tissue. The findings indicate that photodiodes within the near-infrared spectrum are suitable for low-temperature therapeutic applications in brain tissues, affirming the viability of non-invasive and safe photonic therapy. This research contributes foundational data for advancing brain implant photonic sensor design and therapeutic strategies. Furthermore, it establishes conditions for achieving high light absorption rates with minimal heat generation, identifying optimal parameters for efficient energy transfer.

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Recent Advancements in Graphene-Based Implantable Electrodes for Neural Recording/Stimulation

Cited by 2 publications

References 176 publications

Enhanced Performance of Al, Sb and Al/Sb Nanosheets Designed as Dielectric Lenses for Terahertz Applications

Enhanced Performance of Al, Sb and Al/Sb Nanosheets Designed as Dielectric Lenses for Terahertz Applications

The Optical Parameter Optimization for Brain Implant Alzheimer Sensor Using Phototherapy Angle and Wavelength Simulation (PAWS) Methodology

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