AIMC Topic: Electronics

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A robust and omnidirectional-sensitive electronic antenna for tactile-induced perception.

Nature communications Apr 1, 2025
Skin-like planar tactile sensors have achieved adaptive gripping, in-hand manipulation, and human-machine interaction but remain limited in tasks requiring active environmental interaction and robustness against large mechanical perturbations. Inspir...
Robotics Electronics Touch Algorithms Touch Perception Animals Humans Insecta
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Biocompatible Neuromorphic Device Array Based on Naturally Sourced Mucin for Implantable Bioelectronics.

ACS nano Mar 6, 2025
Although the demand for intelligent implantable bioelectronics is steadily increasing, their progress is hindered by the limited availability of materials with sufficient biocompatibility for implantation. Herein, we propose a neuromorphic device wit...
Humans Prostheses and Implants Electronics Biocompatible Materials Neural Networks, Computer Cell Survival Mucins
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Organic Artificial Nerves: Neuromorphic Robotics and Bioelectronics.

Chemical reviews Feb 21, 2025
Neuromorphic electronics are inspired by the human brain's compact, energy-efficient nature and its parallel-processing capabilities. Beyond the brain, the entire human nervous system, with its hierarchical structure, efficiently preprocesses complex...
Neurons Electronics Transistors, Electronic Humans Robotics
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Cost-Efficient Domain-Adaptive Pretraining of Language Models for Optoelectronics Applications.

Journal of chemical information and modeling Feb 11, 2025
Pretrained language models have demonstrated strong capability and versatility in natural language processing (NLP) tasks, and they have important applications in optoelectronics research, such as data mining and topic modeling. Many language models ...
Cost-Benefit Analysis Electronics Data Mining Natural Language Processing
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Flexible Neuromorphic Electronics for Wearable Near-Sensor and In-Sensor Computing Systems.

Advanced materials (Deerfield Beach, Fla.) Jan 19, 2025
Flexible neuromorphic architectures that emulate biological cognitive systems hold great promise for smart wearable electronics. To realize neuro-inspired sensing and computing electronics, artificial sensory neurons that detect and process external ...
Wearable Electronic Devices Humans Electronics Neural Networks, Computer
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Multidimensional free shape-morphing flexible neuromorphic devices with regulation at arbitrary points.

Nature communications Jan 17, 2025
Biological neural systems seamlessly integrate perception and action, a feat not efficiently replicated in current physically separated designs of neural-imitating electronics. This segregation hinders coordination and functionality within the neurom...
Biomimetics Nanowires Robotics Silver Neural Networks, Computer Electronics Animals
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Sustainable Silk Fibroin Ionic Touch Screens for Flexible Biodegradable Electronics with Integrated AI and IoT Functionality.

Advanced materials (Deerfield Beach, Fla.) Dec 8, 2024
The increasing prevalence of electronic devices has led to a significant rise in electronic waste (e-waste), necessitating the development of sustainable materials for flexible electronics. In this study, silk fibroin ionic touch screen (SFITS) is in...
Wearable Electronic Devices Electronics Humans Artificial Intelligence Electric Conductivity Touch Fibroins Ions Internet of Things
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Machine-Learning Mental-Fatigue-Measuring μm-Thick Elastic Epidermal Electronics (MMMEEE).

Nano letters Nov 27, 2024
Electrophysiological (EP) signals are key biomarkers for monitoring mental fatigue (MF) and general health, but state-of-the-art wearable EP-based MF monitoring systems are bulky and require user-specific, labeled data. Ultrathin epidermal electrodes...
Machine Learning Wearable Electronic Devices Nanowires Humans Epidermis Electronics Dimethylpolysiloxanes Silver Elasticity Electrodes
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Mormyroidea-inspired electronic skin for active non-contact three-dimensional tracking and sensing.

Nature communications Nov 14, 2024
The capacity to discern and locate positions in three-dimensional space is crucial for human-machine interfaces and robotic perception. However, current soft electronics can only obtain two-dimensional spatial locations through physical contact. In t...
Wearable Electronic Devices Robotics Skin Electronics Humans Animals
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AcousTac: Tactile Sensing with Acoustic Resonance for Electronics-Free Soft Skin.

Soft robotics Aug 2, 2024
Sound is a rich information medium that transmits through air; people communicate through speech and can even discern material through tapping and listening. To capture frequencies in the human hearing range, commercial microphones typically have a s...
Touch Sound Equipment Design Electronics Vibration Acoustics Humans Skin Robotics
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