Julio C. Costa

TL;DR: In this article, the current state of flexible sensor technologies and the impact of material developments on this field are discussed. And special attention is given to strain, temperature, chemical, light and electropotential sensors, as well as their respective applications.

TL;DR: The demonstrated textile integration techniques for flexible sensors using industrial yarn manufacturing processes enable large-scale smart textile fabrication and adds a layer of protection to the sensor.

TL;DR: The current trends of flexible metal oxide TFTs for analog applications are reviewed, where current challenges and requirements related to the realization of flexible analog circuits and systems are analysed and an outlook over the field is provided.

TL;DR: In this paper, the active compensation of strain-induced performance variations in pixel driving circuits for bendable active matrix arrays was evaluated and the most effective compensation circuit design, comprising one additional TFT and two resistors, reduced the driving current variation to $1.1~\mu \text{A}$ per percent of strain.

TL;DR: In this article, a new level of complexity is demonstrated for hand-written electronics by fabricating passive components, circuits and a sensors system on paper, which can enable the development of flexible and eco-friendly wearables and sensors for consumer and healthcare applications.