Near-Infrared Response Organic Synaptic Transistor for Dynamic Trace Extraction.
Wanhong LuanZherui ZhaoHang LiYongbiao ZhaiZiyu LvKui ZhouShuangmei XueMeng ZhangYan YanYan CaoGuanglong DingSu-Ting HanChi-Ching KuoYe ZhouPublished in: The journal of physical chemistry letters (2024)
The development of neuromorphic hardware capable of detecting and recognizing moving targets through an in-sensor computing strategy is considered to be an important component of the construction of edge computing systems with distributed computation. In addition to responsiveness to visible light, the implementation of neuromorphic hardware should also demonstrate the ability to sense and process nonvisible light, which is essential for tracking target object trajectories in specialized environments. In this work, we fabricated an organic synaptic transistor with a near-infrared (NIR) response by incorporating doped LaF 3 : Yb/Ho upconversion quantum dots (UCQDs) into the channel of a Poly3-hexylthiophene (P3HT)-based organic field effect transistor (FET), serving as charge trapping and infrared sensing sites. The obtained synaptic transistor not only replicates common synaptic behaviors when exposed to NIR illumination but also demonstrates potential applications for the dynamic trajectory recognition of animals in the dark. Compared to other monitoring technologies, P3HT transistors doped with LaF 3 : Yb/Ho UCQDs exhibit distinct advantages, including a NIR response, high-efficiency computing, and sensitivity, which provide an experimental foundation and a design reference for the development of next-generation intelligent dynamic image recognition systems.
Keyphrases
- quantum dots
- visible light
- photodynamic therapy
- high efficiency
- energy transfer
- prefrontal cortex
- fluorescent probe
- fluorescence imaging
- drug release
- depressive symptoms
- sensitive detection
- palliative care
- primary care
- highly efficient
- water soluble
- deep learning
- working memory
- drug delivery
- quality improvement
- pi k akt
- risk assessment
- cell proliferation