Articles with "human physiological" as a keyword



Silicone Reinforced Fabric Sensor with Dual‐Measurement Method: For Human Physiological Signal Detection and Robot Motion Detection

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Published in 2025 at "Advanced Engineering Materials"

DOI: 10.1002/adem.202502126

Abstract: Fabric‐based sensors exhibit remarkable potential for human physiological signal detection due to their excellent wearability and flexibility. However, the sensing range and sensitivity of conventional fabric‐based sensors are inherently constrained by the textile substrate. Furthermore,… read more here.

Keywords: detection; human physiological; dual measurement; sensor ... See more keywords
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Skin-Friendly Electronics for Acquiring Human Physiological Signatures.

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Published in 2019 at "Advanced materials"

DOI: 10.1002/adma.201905767

Abstract: Epidermal sensing devices offer great potential for real-time health and fitness monitoring via continuous characterization of the skin for vital morphological, physiological, and metabolic parameters. However, peeling them off can be difficult and sometimes painful… read more here.

Keywords: acquiring human; physiological signatures; skin friendly; friendly electronics ... See more keywords

Highly Sensitive Temperature-Pressure Bimodal Aerogel with Stimulus Discriminability for Human Physiological Monitoring.

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Published in 2022 at "Nano letters"

DOI: 10.1021/acs.nanolett.2c01145

Abstract: Multimodal sensor with high sensitivity, accurate sensing resolution, and stimuli discriminability is very desirable for human physiological state monitoring. A dual-sensing aerogel is fabricated with independent pyro-piezoresistive behavior by leveraging MXene and semicrystalline polymer to… read more here.

Keywords: aerogel; temperature; pressure; temperature pressure ... See more keywords

Nature-Driven Biocompatible Epidermal Electronic Skin for Real-Time Wireless Monitoring of Human Physiological Signals.

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Published in 2023 at "ACS applied materials & interfaces"

DOI: 10.1021/acsami.3c00509

Abstract: Wearable bioelectronic patches are creating a transformative effect in the health care industry for human physiological signal monitoring. However, the use of such patches is restricted due to the unavailability of a proper power source.… read more here.

Keywords: skin; physiological signals; electronic skin; power ... See more keywords

Fabrication of highly pressure-sensitive, hydrophobic, and flexible 3D carbon nanofiber networks by electrospinning for human physiological signal monitoring.

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Published in 2019 at "Nanoscale"

DOI: 10.1039/c8nr08341j

Abstract: Three-dimensional (3D) porous nanostructure materials have promising applications in pressure sensors or other situations. However, the low sensing sensitivity of these materials restricts precise detection of physiological signals, and it is still a challenge to… read more here.

Keywords: highly pressure; human physiological; nanofiber networks; pressure sensitive ... See more keywords
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Study of driving skill level discrimination based on human physiological signal characteristics

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Published in 2018 at "RSC Advances"

DOI: 10.1039/c8ra08523d

Abstract: The primary purpose of the study is to distinguish the differences in driving skill between novice and experienced drivers from the viewpoint of human cognitive behavior. Firstly, EEG (electroencephalogram) signals were collected using EEG acquisition… read more here.

Keywords: study driving; skill level; human physiological; driving skill ... See more keywords

Self-Powered Biosensors for Monitoring Human Physiological Changes

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Published in 2023 at "Biosensors"

DOI: 10.3390/bios13020236

Abstract: Human physiological signals have an important role in the guidance of human health or exercise training and can usually be divided into physical signals (electrical signals, blood pressure, temperature, etc.) and chemical signals (saliva, blood,… read more here.

Keywords: powered biosensors; energy; monitoring human; human physiological ... See more keywords
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Lipid-lipid interactions of Escherichia coli mimetic inner membrane at human physiological temperature.

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Published in 2020 at "General physiology and biophysics"

DOI: 10.4149/gpb_2019063

Abstract: The current strategies to eradicate bacteria require that the antimicrobial agent either penetrate or disrupt the bacterial membrane. In Escherichia coli (E.coli) as a model of Gram-negative strains, the antimicrobials have to cross two barriers… read more here.

Keywords: inner membrane; escherichia coli; human physiological; lipid lipid ... See more keywords