Boosting the Visible Light Optoelectronic Synaptic Characteristics of Solution-Processed IGZO Transistors via Vertically Diffused Cd Dopants

Abstract: Inspired by the human visual system, optoelectronic synaptic transistors have recently received a great deal of attention as promising candidates for next-generation neuromorphic computing systems. For the low-cost, mass production of optoelectronic synaptic devices, it is essential to fabricate devices through a solution process. Furthermore, there should be no compromise on electrical characteristics for improving photoresponse characteristics in high-performance optoelectronic synaptic devices. To obtain bo… Show more

“…This technology utilizes the low off-current of oxide TFTs to support frame rates of 120 Hz for fast-motion images while also adopting frame rates of 1 Hz for low-motion images to reduce power consumption. Despite the successful commercialization of IGZO TFTs, challenges remain in adapting them to flexible, rollable, and bendable displays. , It is primarily attributed to the temperature limitations of flexible substrates, with the exception of polyimide, which cannot withstand temperatures over 300 °C. Specifically, activation processes at high temperatures make it difficult to apply various flexible substrates, such as poly(ethylene terephthalate) (PET) and poly(ethylene naphthalate) (PEN), which have glass transition temperatures lower than 300 °C.…”

Enhanced Electrical Properties and Stability in IGZO TFTs via Low-Temperature Activation with MgO_x Layer

“…This technology utilizes the low off-current of oxide TFTs to support frame rates of 120 Hz for fast-motion images while also adopting frame rates of 1 Hz for low-motion images to reduce power consumption. Despite the successful commercialization of IGZO TFTs, challenges remain in adapting them to flexible, rollable, and bendable displays. , It is primarily attributed to the temperature limitations of flexible substrates, with the exception of polyimide, which cannot withstand temperatures over 300 °C. Specifically, activation processes at high temperatures make it difficult to apply various flexible substrates, such as poly(ethylene terephthalate) (PET) and poly(ethylene naphthalate) (PEN), which have glass transition temperatures lower than 300 °C.…”

Enhanced Electrical Properties and Stability in IGZO TFTs via Low-Temperature Activation with MgO_x Layer