Nano‐Biosensors for Continuous Cognitive and Stress Monitoring: Applications in Learning and Mental Well‐Being DOI Creative Commons
Priscilla Adomako Gyasi, Jesse Nii Okai Amu‐Darko, Binghai Sun

et al.

Nano Select, Journal Year: 2025, Volume and Issue: unknown

Published: May 19, 2025

ABSTRACT Nano‐biosensors (NBs) are developing as transformative equipment for real‐time cognitive monitoring, with far‐reaching implications personalized education and mental health interventions. These sensors have exclusive sensitivity to physiological indicators, including cortisol, dopamine, serotonin, lactate, heart rate variability, because they combine proficient nanomaterials (NMs) bioelectrical signal detection. In educational settings, NBs enable dynamic evaluations of student engagement, load, states, fostering adaptable learning environments that respond individual needs. Similarly, in health, aid the early diagnosis stress, anxiety, mood disorders, allowing prompt treatments. This novel technology promotes self‐awareness resilience by empowering users feedback adopt positive coping strategies. The integration into wearables IoT ecosystems holds potential revolutionize how society understands addresses interplay between cognition well‐being, driving advancements education, therapy, beyond. review focuses on their significance individualized solutions bridge gap cognition, learning, health.

Language: Английский

Image Logic and Semantics of User Motion Interaction Language Based on Deep Learning DOI Creative Commons

Yanlan Liu,

Yixi Zhai,

Liqing Chu

et al.

Applied Artificial Intelligence, Journal Year: 2025, Volume and Issue: 39(1)

Published: March 25, 2025

Language: Английский

Citations

0

Nano‐Biosensors for Continuous Cognitive and Stress Monitoring: Applications in Learning and Mental Well‐Being DOI Creative Commons
Priscilla Adomako Gyasi, Jesse Nii Okai Amu‐Darko, Binghai Sun

et al.

Nano Select, Journal Year: 2025, Volume and Issue: unknown

Published: May 19, 2025

ABSTRACT Nano‐biosensors (NBs) are developing as transformative equipment for real‐time cognitive monitoring, with far‐reaching implications personalized education and mental health interventions. These sensors have exclusive sensitivity to physiological indicators, including cortisol, dopamine, serotonin, lactate, heart rate variability, because they combine proficient nanomaterials (NMs) bioelectrical signal detection. In educational settings, NBs enable dynamic evaluations of student engagement, load, states, fostering adaptable learning environments that respond individual needs. Similarly, in health, aid the early diagnosis stress, anxiety, mood disorders, allowing prompt treatments. This novel technology promotes self‐awareness resilience by empowering users feedback adopt positive coping strategies. The integration into wearables IoT ecosystems holds potential revolutionize how society understands addresses interplay between cognition well‐being, driving advancements education, therapy, beyond. review focuses on their significance individualized solutions bridge gap cognition, learning, health.

Language: Английский

Citations

0