In this section
@article{Holicky:2025:2053-1583/adac71,
author = {Holicky, M and Fenech-Salerno, B and Dabas, R and Teenan, O and Li, X and Steer, IV and Higgins, C and Akhavani, M and Gadegaard, N and Kamaly, N and Cass, A and Torrisi, F},
doi = {2053-1583/adac71},
journal = {2D Materials},
title = {Wearable microneedle graphene field-effect transistor sensors},
url = {http://dx.doi.org/10.1088/2053-1583/adac71},
year = {2025}
}
TY - JOUR
AB - Continuous monitoring of biomarkers in interstitial fluid (ISF) holds great potential for early disease detection and personalized medicine.This work presents a novel biosensing platform that combines microneedle technology with graphene field-effect transistors (GFETs) toenable sensitive, continuous analyte detection directly in ISF. Using spray-coating and laser lithography techniques, we create GFET channels on three-dimensional microneedle tips. The resulting devices show characteristic GFET behavior in solution. As a proof-of-concept, we demonstrate pH sensing capabilities with a sensitivity of 2.50% ID/pH and the ability to detect changes as small as 0.04pH units. Crucially, we show that these microneedle GFETs can function when inserted into ex-vivo human skin samples, with GFETgating occurring through the skin tissue. Finally, based on MTT assays and cellular imaging, no cytotoxic effect was observed which is animportant prerequisite for human use.
AU - Holicky,M
AU - Fenech-Salerno,B
AU - Dabas,R
AU - Teenan,O
AU - Li,X
AU - Steer,IV
AU - Higgins,C
AU - Akhavani,M
AU - Gadegaard,N
AU - Kamaly,N
AU - Cass,A
AU - Torrisi,F
DO - 2053-1583/adac71
PY - 2025///
SN - 2053-1583
TI - Wearable microneedle graphene field-effect transistor sensors
T2 - 2D Materials
UR - http://dx.doi.org/10.1088/2053-1583/adac71
ER -
Dr Felice Torrisi
Senior Lecturer in Chemistry of Two-Dimensional Materials
401A
Molecular Sciences Research Hub
White City Campus
f.torrisi@imperial.ac.uk
+44 (0)20 7594 5818