AI Article Synopsis
- * Amorphous-Si and organic TFTs can be produced at lower temperatures but face limitations in performance, impacting their use in applications requiring basic computing and communication on plastic substrates.
- * New advancements in TFTs using oriented Si nanowire thin films and CdS nanoribbons allow for high-performance transistors to be fabricated on plastics at low temperatures, paving the way for improved technologies and new applications in flexible electronics.
Article Abstract
Thin-film transistors (TFTs) are the fundamental building blocks for the rapidly growing field of macroelectronics. The use of plastic substrates is also increasing in importance owing to their light weight, flexibility, shock resistance and low cost. Current polycrystalline-Si TFT technology is difficult to implement on plastics because of the high process temperatures required. Amorphous-Si and organic semiconductor TFTs, which can be processed at lower temperatures, but are limited by poor carrier mobility. As a result, applications that require even modest computation, control or communication functions on plastics cannot be addressed by existing TFT technology. Alternative semiconductor materials that could form TFTs with performance comparable to or better than polycrystalline or single-crystal Si, and which can be processed at low temperatures over large-area plastic substrates, should not only improve the existing technologies, but also enable new applications in flexible, wearable and disposable electronics. Here we report the fabrication of TFTs using oriented Si nanowire thin films or CdS nanoribbons as semiconducting channels. We show that high-performance TFTs can be produced on various substrates, including plastics, using a low-temperature assembly process. Our approach is general to a broad range of materials including high-mobility materials (such as InAs or InP).
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| http://dx.doi.org/10.1038/nature01996 | DOI Listing |
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