Chemical and Physical Sensing by Organic Field-Effect Transistors and Related Devices

Organic semiconductor films are susceptible to noncovalent interactions, trapping and doping, photoexcitation, and dimensional deformation. While these effects can be detrimental to the performance of conventional circuits, they can be harnessed, especially in field‐effect architectures, to detect chemical and physical stimuli. This Review summarizes recent advances in the use of organic electronic materials for the detection of environmental chemicals, pressure, and light. The material features that are responsible for the transduction of the input signals to electronic information are discussed in detail. Organic semiconductor films are susceptible to noncovalent interactions, trapping and doping, photoexcitation, and dimensional deformation. These can be harnessed, especially in field‐effect architectures as shown in the figure, to detect chemical and physical stimuli. This review summarizes recent advances in the use of organic electronic materials for the detection of environmental chemicals, pressure, and light.