Tuning the Morphology of Isoindigo Donor–Acceptor Polymer Film for High Sensitivity Ammonia Sensor
Journal
Advanced Functional Materials
Journal Volume
28
Journal Issue
40
Date Issued
2018
Author(s)
Abstract
Monitoring the ammonia gas is of great interest to both environmental benefits and human health. The recent advance in polymer thin film transistors (TFTs) can realize high sensitivity and low-cost gas sensors. Ammonia gas interacts with charge carrier channels and polymer/dielectrics interface through Coulomb force. This is the first report of high sensitivity and reusable ammonia sensor fabricated from thiophene-isoindigo donor–acceptor conducting polymer. This kind of polymer has advantages of simple synthesis and excellent air stability. The systematic study is carried out to investigate relationship among chemical structure variation and morphology control of polymer to the performance of ammonia sensor. High crystallinity, favored crystal orientation, and direct percolation routes for analytes are found to be essential to increase the susceptibility of polymers to ammonia gas. By strengthening edge-on morphology, the sensitivity can be enhanced fivefold for the same polymer. The idea can put forward the development of sensor array in a time-efficient manner by employing the morphology effect. ? 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Subjects
ammonia sensors; field-effect transistors; morphology; packing orientation; polymers
Other Subjects
Ammonia; Conducting polymers; Crystal orientation; Field effect transistors; Morphology; Polymer films; Polymers; Semiconducting films; Solvents; Thin film transistors; Ammonia sensors; Direct percolations; Environmental benefits; High crystallinity; Morphology control; Packing orientation; Polymer thin film transistors; Structure variation; Phase interfaces
Type
journal article