PEER-REVIEWED PUBLICATION

2025

On-scalp printing of personalized electroencephalography e-tattoos

Vasconcelos LS, Yan Y, et al.

Cell Biomaterials

The University of Texas at Austin, University of California – Los Angeles

RESEARCH SUMMARY

This study introduces a full-head, on-scalp microjet printing technology for creating ultrathin, stretchable, self-drying EEG e-tattoos capable of high-fidelity electrophysiological monitoring on hairy scalps. The authors developed two biocompatible PEDOT:PSS-based inks—one optimized for low-impedance electrodes and one for high-conductivity interconnects—and paired them with a 5-axis robotic printing system guided by 3D head scans and a project-and-slice layout algorithm. Compared with conventional wet-gel EEG electrodes, the printed e-tattoos exhibited significantly lower and more stable contact impedance (<40 kΩ over 6 hours), superior skin conformability, strong mechanical adhesion, and robustness during motion. Performance was validated across multiple EEG modalities, including motor imagery and error-related potentials, demonstrating parity with gel electrodes while enabling long-term, comfortable, cap-free EEG acquisition.

The CellScale UStretch mechanical testing system was used to perform peel-force measurements on porcine skin to compare adhesion between printed-on-skin films and transferred films. These quantitative peel tests demonstrated that directly printed PEDOT:PSS electrode and interconnect films adhered more strongly to biological tissue, supporting the device’s improved on-skin mechanical stability reported in the study.

AUTHORS

Luize Scalco de Vasconcelos, Yichen Yan, Pukar Maharjan, Satyam Kumar, Minsu Zhang, Bowen Yao, Hongbian Li, Sidi Duan, Eric Li, Eric Williams, Sandhya Tiku, Pablo Vidal, R. Sergio Solorzano-Vargas, Wen Hong, Yingjie Du, Zixiao Liu, Fumiaki Iwane, Charles Block, Andrew T. Repetski, Philip Tan, Pulin Wang, Martín G. Martín, José del R. Millán, Ximin He, Nanshu Lu.

PUBLICATION DETAILS

JOURNAL

Cell Biomaterials

YEAR

2025

INSTITUTIONS

The University of Texas at Austin, University of California – Los Angeles

COUNTRIES

United States

INSTRUMENT USED

UStretch

TESTING METHODS

Peel Testing

RESEARCH APPLICATIONS

Adhesives and Sealants TestingPolymers and Elastomers TestingWearable Bioelectronics

Related Publications:

Instrument Used:

Year:

Testing Method:

Research Application:

Country:

Comparative Analysis of Two Measurement Modalities for Ex Vivo Analysis of Corneal Stiffness in Porcine Corneas

Reifeltshammer SA, Seferovic H, et al.

Bioengineering

UStretch

Hydrated and Temperature Controlled TestingTensile Testing

Ophthalmic Biomechanics & Corneal Tissue Engineering

2025

Elucidating the Mechanistic Process of Age-Induced Human Skin Wrinkling

Ittycheri A, Wiltshire A, et al.

Journal of the Mechanical Behavior of Biomedical Materials

UStretch

Tensile TestingViscoelastic & Time-Dependent Testing

Fibrosis & Tissue RemodelingMechanotransductionSkin and Wound Healing Biomechanics

2025

Air Plastron–Enabled Heat Management for Enhanced Photothermal Actuation in Underwater Soft Robots

Shi P, Chen C, et al.

Science Advances

UStretch

Peel Testing

Adhesives and Sealants TestingPolymers and Elastomers TestingSoft Robotics Materials

2025