PEER-REVIEWED PUBLICATION

2025

Stick-and-play bioadhesive hairlike electrodes for chronic EEG recording on human

Ahmed S, Momin M, et al.

npj Biomedical Innovations

The Pennsylvania State University, National Taipei University of Technology

RESEARCH SUMMARY

This study reports the design and fabrication of bioadhesive, hairlike electrodes that enable stable, long-term electroencephalogram (EEG) recording from the human scalp without the use of conductive gels or skin preparation. Using a combination of flexible conductive polymer hydrogels and a robust bioadhesive layer, the hairlike devices achieve intimate conformal contact with the scalp even in the presence of dense hair. Mechanical and electrical characterization demonstrated high stretchability, strong adhesion, and stable electrode–skin impedance over repeated mechanical loading cycles and extended wear times. Human subject testing confirmed high-fidelity EEG signal acquisition over 24 hours, highlighting the potential of these devices for chronic neural monitoring and wearable neurotechnology applications.

Mechanical characterization of the hairlike electrodes and bioadhesive materials was performed using a CellScale UniVert mechanical testing system. The UniVert was used to conduct 90° peel tests to quantify interfacial adhesion strength to skin, uniaxial tensile stretching to determine ultimate strain and stress–strain behavior, and cyclic tensile loading to evaluate mechanical durability. UniVert-generated force–displacement data enabled quantitative assessment of adhesion robustness, stretchability, and mechanical stability under repeated deformation relevant to real-world wearable use.

AUTHORS

Salahuddin Ahmed, Marzia Momin, Jiashu Ren, Hyunjin Lee, Basma AlMahmood, Li-Pang Huang, Archana Pandiyan, Loganathan Veeramuthu, Chi-Ching Kuo, Tao Zhou.

PUBLICATION DETAILS

JOURNAL

npj Biomedical Innovations

YEAR

2025

INSTITUTIONS

The Pennsylvania State University, National Taipei University of Technology

COUNTRIES

Taiwan, United States

INSTRUMENT USED

UniVert

TESTING METHODS

Fatigue TestingPeel TestingTensile Testing

RESEARCH APPLICATIONS

Adhesives and Sealants TestingNeural Tissue & CNS MechanicsPolymers and Elastomers TestingSoft Robotics MaterialsWearable Bioelectronics

Related Publications:

Instrument Used:

Year:

Testing Method:

Research Application:

Country:

A Thermoresponsive, Electrically Conductive Bioink Optimized for Electroactive Tissue Engineering and Bioelectronics

Byrne R, Redmond J, et al.

ACS Applied Bio Materials

UniVert

Compression TestingHydrated and Temperature Controlled TestingViscoelastic & Time-Dependent Testing

3D Bioprinting & Bioink Materials TestingElectroactive and Photothermal PolymersWearable Bioelectronics

2026

Depth-resolved phase velocity estimation in layered tissue based on an efficient additive attention network with surface acoustic wave – optical coherence elastography

Zhang G, Liao J, et al.

Biomedical Optics Express

UniVert

Compression Testing

Skin and Wound Healing Biomechanics

2026

Co-delivery of Human Adipose-Derived Stromal Cells and Endothelial Colony-Forming Cells in Cell-Assembled Decellularized Adipose Tissue Scaffolds for Applications in Soft Tissue Regeneration

From SA, Walker JT, et al.

Acta Biomaterialia

UniVert

Compression TestingMicro-Mechanical TestingUltra Low Force Testing

Cell Laden HydrogelsECM & Decellularized Matrix MechanicsInjectable & Regenerative BiomaterialsScaffold Mechanical TestingSkin and Wound Healing BiomechanicsVascular Tissue Engineering & Mechanics

2026