Carlo Menon
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View article: Sialic Acid Sensing via Molecularly Imprinted Polymer on Laser‐Induced Graphene
Sialic Acid Sensing via Molecularly Imprinted Polymer on Laser‐Induced Graphene Open
Sialic acid is an important biomarker for oral diseases, including cancer. We show that electropolymerization of aminophenylboronic acid onto laser‐induced graphene substrate in the presence of sialic acid results in the formation of a mol…
View article: The impact of bimanual reach training with augmented position sense feedback on post-stroke upper limb somatosensory and motor impairment
The impact of bimanual reach training with augmented position sense feedback on post-stroke upper limb somatosensory and motor impairment Open
Background Impaired arm position sense is a common somatosensory impairment after stroke, which significantly impacts the performance of functional activities using the upper limb. However, few clinical interventions target loss of positio…
View article: Microfluidic Fabrication of Janus Triboelectric Fibers with Bamboo-Like Architecture for Motion Sensing Applications
Microfluidic Fabrication of Janus Triboelectric Fibers with Bamboo-Like Architecture for Motion Sensing Applications Open
Fiber-based triboelectric nanogenerators (f-TENGs) hold great promise for healthcare applications, addressing increasing demand for wearables and self-powered devices in our aging society. To date, many co-axial multilayer fibers have been…
View article: Balancing sensitivity and integration in capacitive pressure sensors for textile-based health monitoring
Balancing sensitivity and integration in capacitive pressure sensors for textile-based health monitoring Open
Capacitive pressure sensors (CPSs) are increasingly important for wearable and textile-based health monitoring due to their high sensitivity, low power consumption, and structural flexibility. Building on a structured literature review (20…
View article: Evaluating the performance of wearable EEG sleep monitoring devices: a meta-analysis approach
Evaluating the performance of wearable EEG sleep monitoring devices: a meta-analysis approach Open
Wearable EEG sleep monitoring devices (wEEGs) are increasingly popular in both clinical and consumer applications. However, their performance compared to polysomnography (PSG), the gold standard, remains under study. This meta-analysis of …
View article: Demographic bias in public remote photoplethysmography datasets
Demographic bias in public remote photoplethysmography datasets Open
Remote photoplethysmography (rPPG) is gaining traction for non-contact heart rate estimation, yet most publicly available datasets are demographically biased. In this study, we analyze 100 rPPG studies, providing the first quantitative cro…
View article: An Intensive Upper Extremity Program Coupled With a Wearable Device for Poststroke Rehabilitation: A Qualitative Study of the Perspectives of People With Stroke
An Intensive Upper Extremity Program Coupled With a Wearable Device for Poststroke Rehabilitation: A Qualitative Study of the Perspectives of People With Stroke Open
Objective The Virtual Arm Boot Camp program (V-ABC) was one of the first virtually delivered upper extremity exercise programs coupled with a novel wearable device that provided reach-to-grasp feedback for individuals with stroke. Understa…
View article: The role of face regions in remote photoplethysmography for contactless heart rate monitoring
The role of face regions in remote photoplethysmography for contactless heart rate monitoring Open
Heart rate (HR) estimation is crucial for early cardiovascular diagnosis, continuous monitoring, and various health applications. While electrocardiography (ECG) remains the gold standard, its discomfort and impracticality for continuous u…
View article: Wireless Motion Variability Analysis with Integrated Triboelectric Textiles via Displacement Current
Wireless Motion Variability Analysis with Integrated Triboelectric Textiles via Displacement Current Open
Triboelectric textiles have recently garnered significant attention for their ability to detect and analyze body movements. However, the transmission of wireless signals from natural human motion via integrated triboelectric wearables has …
View article: Metal‐Organic Framework‐Based Tribovoltaic Textile for Human Body Signal Monitoring (Adv. Sci. 17/2025)
Metal‐Organic Framework‐Based Tribovoltaic Textile for Human Body Signal Monitoring (Adv. Sci. 17/2025) Open
Smart Textile The cover image depicts a full‐textile tribovoltaic nanogenerator developed using 2D copper‐benzenehexathiol metal‐organic framework as a p‐type semiconductor. This innovation enables the device to self‐rectify its electric o…
View article: Stretchable and Robust All-in-One Tribovoltaic Textile for Sport and Fitness Tracking
Stretchable and Robust All-in-One Tribovoltaic Textile for Sport and Fitness Tracking Open
As emerging wearables, triboelectric textiles offer dual functionalities for sensing and energy harvesting, but often encounter challenges of alternating signal generation and high internal impedance. Recent advancements in tribovoltaic te…
View article: Metal‐Organic Framework‐Based Tribovoltaic Textile for Human Body Signal Monitoring
Metal‐Organic Framework‐Based Tribovoltaic Textile for Human Body Signal Monitoring Open
The pursuit of sustainable and portable direct current (DC) energy suppliers has ignited considerable interest in tribovoltaic nanogenerators (TVNGs), devices that harvest mechanical energy from the surrounding environment. However, the pr…
View article: A Randomized Control Trial of a Virtually Delivered Program for Increasing Upper Limb Activity After Stroke
A Randomized Control Trial of a Virtually Delivered Program for Increasing Upper Limb Activity After Stroke Open
Background Upper limb activity following stroke is low, which may limit recovery. We investigated whether a virtually-delivered upper limb program, that included a wearable device with reach-to-grasp feedback, would increase upper limb act…
View article: Optimal facial regions for remote heart rate measurement during physical and cognitive activities
Optimal facial regions for remote heart rate measurement during physical and cognitive activities Open
Remote photoplethysmography (rPPG) has gained prominence as a non-contact and real-time technology for heart rate monitoring. A critical factor in rPPG’s accuracy is the selection of regions of interest (ROI), as it can significantly influ…
View article: Correction: Kaur, M.; Menon, C. Submillimeter Sized 2D Electrothermal Optical Fiber Scanner. Sensors 2023, 23, 404
Correction: Kaur, M.; Menon, C. Submillimeter Sized 2D Electrothermal Optical Fiber Scanner. Sensors 2023, 23, 404 Open
The Editorial Office and Editorial Board of Sensors are jointly issuing a resolution and removal of the Journal Notice linked to this article [...]
View article: Variability and repeatability of spinal manipulation force–time characteristics in thoracic spinal manipulation on a manikin
Variability and repeatability of spinal manipulation force–time characteristics in thoracic spinal manipulation on a manikin Open
Background As part of multimodal therapy, spinal manipulation (SM) is a recommended and effective treatment for musculoskeletal pain. However, the underlying physiological mechanisms for pain relief are largely unknown. SM thrusts can be d…
View article: Photoplethysmography Features Correlated with Blood Pressure Changes
Photoplethysmography Features Correlated with Blood Pressure Changes Open
Blood pressure measurement is a key indicator of vascular health and a routine part of medical examinations. Given the ability of photoplethysmography (PPG) signals to provide insights into the microvascular bed and their compatibility wit…
View article: EEG-based headset sleep wearable devices
EEG-based headset sleep wearable devices Open
The rise of wearable technology has led to EEG-based sleep monitoring devices that use electrodes placed on the forehead, ear, or neck. These devices offer promising applications in clinical and healthy populations by comparing sleep patte…
View article: High‐Performance Textile‐Based Capacitive Strain Sensors via Enhanced Vapor Phase Polymerization of Pyrrole and Their Application to Machine Learning‐Assisted Hand Gesture Recognition
High‐Performance Textile‐Based Capacitive Strain Sensors via Enhanced Vapor Phase Polymerization of Pyrrole and Their Application to Machine Learning‐Assisted Hand Gesture Recognition Open
Sensors based on everyday textiles are extremely promising for wearable applications. The present work focuses on high‐performance textile‐based capacitive strain sensors. Specifically, a conductive textile is obtained via vapor‐phase poly…