Introducing Chiro-optical Activities in Photonic Synapses for Neuromorphic Computing and In-Memory Logic Operations

Dan, Soirik; Paramanik, Subham; Pal, Amlan J.

doi:10.1021/acsnano.4c01202

ACS Nano

2024

DOI: 10.1021/acsnano.4c01202

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Introducing Chiro-optical Activities in Photonic Synapses for Neuromorphic Computing and In-Memory Logic Operations

Soirik Dan,

Subham Paramanik,

Amlan J. Pal

Abstract: In artificial synaptic devices aimed at mimicking neuromorphic computing systems, electrical or optical pulses, or both, are generally used as stimuli. In this work, we introduce chiral materials for tailoring the characteristics of photonic synaptic devices to achieve handedness-dependent neuromorphic computing and in-memory logic gates. In devices based on a pair of chiral perovskites, the use of circularly polarized light (CPL) as the optical stimuli mimicked a series of electrical and opto-synaptic functio… Show more

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Cited by 4 publications

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“…When two devices are excited with optical pulses of different widths, the current response is different (Figure d). The production of photocarriers caused the current to rise with light. − Moreover, the carrier concentration may be dominated by the shallow energy level defects introduced by bromine in the mixed components . As a result, a higher density of carriers is generated to achieve a stronger current response.…”

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confidence: 99%

Thermally and Mechanically Stable Perovskite Artificial Synapse as Tuned by Phase Engineering for Efferent Neuromuscular Control

Wei,

Gong,

Liu

et al. 2024

Nano Lett.

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The doping of perovskites with mixed cations and mixed halides is an effective strategy to optimize phase stability. In this study, we introduce a cubic black phase perovskite Cs y FA (1−y) Pb(Br x I (1−x) ) 3 artificial synapse, using phase engineering by adjusting the cesiumbromide content. Low-bromine mixed perovskites are suitable to improve the electric pulse excitation sensitivity and stability of the device. Specifically, the low-bromine and low-cesium mixed perovskite (x = 0.15, y = 0.22) annealed at 373 K allows the device to maintain logic response even after 1000 mechanical flex/flat cycles. The device also shows good thermal stability up to temperatures of 333 K. We have demonstrated reflex-arc behavior with MCMHP synaptic units, capable of making sensory warnings at high frequency. This compositionally engineered, dual-mixed perovskite synaptic device provides significant potential for perceptual soft neurorobotic systems and prostheses.

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confidence: 99%

Thermally and Mechanically Stable Perovskite Artificial Synapse as Tuned by Phase Engineering for Efferent Neuromuscular Control

Wei,

Gong,

Liu

et al. 2024

Nano Lett.

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Ag Doping Modified SnSe-Based Flexible Memristors for Artificial Optoelectronic Synapses

Hu,

Liu,

Zhang

et al. 2024

ACS Appl. Electron. Mater.

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Artificial optoelectronic synapses (OESs) have attracted extensive attention in neuromorphic vision. However, the fabrication of flexible OES is challenging, severely limiting its application in wearable optoelectronic devices. Herein, a method to improve the performance of two-dimensional SnSe-based flexible OES devices by doping Ag atoms is presented. The fabricated device exhibits critical synaptic functions under electrical stimulation, such as short-and long-term synaptic plasticity and learning experience behaviors. Especially, the device demonstrates pronounced optical synaptic behavior through the modulation of optical signals, mainly including short-term and long-term memory. Additionally, benefiting from the excellent mechanical properties of SnSe, the device shows outstanding flexibility, enduring over 100 bending cycles. The doping of Ag atoms addresses the challenge of suboptimal electrical performance in traditional memristors and demonstrates an optical synaptic behavior rarely observed in SnSe devices. This study not only indicates the viability of doping engineering in achieving and enhancing the synaptic plasticity of the OES devices but also promotes the advancement of flexible neuromorphic vision technologies in the future.

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Why Mixed Halides in 2D Chiral Perovskites Weaken Chirality-Induced Spin Selectivity

Dan,

Paramanik,

Pal

2024

ACS Nano

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Introducing Chiro-optical Activities in Photonic Synapses for Neuromorphic Computing and In-Memory Logic Operations

Cited by 4 publications

References 45 publications

Thermally and Mechanically Stable Perovskite Artificial Synapse as Tuned by Phase Engineering for Efferent Neuromuscular Control

Thermally and Mechanically Stable Perovskite Artificial Synapse as Tuned by Phase Engineering for Efferent Neuromuscular Control

Ag Doping Modified SnSe-Based Flexible Memristors for Artificial Optoelectronic Synapses

Why Mixed Halides in 2D Chiral Perovskites Weaken Chirality-Induced Spin Selectivity

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