Organic Field‐Effect Transistors as Flexible, Tissue‐Equivalent Radiation Dosimeters in Medical Applications

Andrew M. Zeidell; Tong Ren; David S. Filston; Hamna F. Iqbal; Emma Holland; J. Daniel Bourland; John E. Anthony; Oana D. Jurchescu

doi:10.1002/advs.202001522

Advanced Science (Sep 2020)

Organic Field‐Effect Transistors as Flexible, Tissue‐Equivalent Radiation Dosimeters in Medical Applications

Andrew M. Zeidell,
Tong Ren,
David S. Filston,
Hamna F. Iqbal,
Emma Holland,
J. Daniel Bourland,
John E. Anthony,
Oana D. Jurchescu

Affiliations

Andrew M. Zeidell: Department of Physics and Center for Functional Materials Wake Forest University Winston‐Salem NC 27109 USA
Tong Ren: Department of Radiation Oncology Wake Forest School of Medicine Wake Forest University Winston Salem NC 27157 USA
David S. Filston: Department of Physics and Center for Functional Materials Wake Forest University Winston‐Salem NC 27109 USA
Hamna F. Iqbal: Department of Physics and Center for Functional Materials Wake Forest University Winston‐Salem NC 27109 USA
Emma Holland: University of Kentucky Center for Applied Energy Research Lexington KY 40511 USA
J. Daniel Bourland: Department of Radiation Oncology Wake Forest School of Medicine Wake Forest University Winston Salem NC 27157 USA
John E. Anthony: University of Kentucky Center for Applied Energy Research Lexington KY 40511 USA
Oana D. Jurchescu: Department of Physics and Center for Functional Materials Wake Forest University Winston‐Salem NC 27109 USA

DOI: https://doi.org/10.1002/advs.202001522
Journal volume & issue: Vol. 7, no. 18
pp. n/a – n/a

Abstract

Read online

Abstract Radiation therapy is one of the most prevalent procedures for cancer treatment, but the risks of malignancies induced by peripheral beam in healthy tissues surrounding the target is high. Therefore, being able to accurately measure the exposure dose is a critical aspect of patient care. Here a radiation detector based on an organic field‐effect transistor (RAD‐OFET) is introduced, an in vivo dosimeter that can be placed directly on a patient's skin to validate in real time the dose being delivered and ensure that for nearby regions an acceptable level of low dose is being received. This device reduces the errors faced by current technologies in approximating the dose profile in a patient's body, is sensitive for doses relevant to radiation treatment procedures, and robust when incorporated into conformal large‐area electronics. A model is proposed to describe the operation of RAD‐OFETs, based on the interplay between charge photogeneration and trapping.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

About the journal

Abstract

Keywords