Publications by authors named "Jin-Chieh Ho"
Photonic transistor memory with high-speed communication and energy-saving capabilities has emerged as a new data storage technology. However, most floating-gate electrets are composed of quantum dots derived from petroleum or metals, which are either toxic or harmful to the environment. In this study, an environmentally friendly floating-gate electret made entirely from biomass-derived materials was designed for photonic memories.
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- Research into photonic electronics shows that enhancing optic unit cells can significantly boost the performance of optoelectronic devices, particularly through organic phototransistor memory that features fast programming and a notable memory ratio.
- The study introduces a hydrogen-bonded supramolecular electret using various porphyrin dyes and insulated polymers, which work together to trap charges effectively and enhance device performance.
- The findings indicate that optimizing hydrogen bonding in the supramolecular structure can lead to superior memory ratios, suggesting a promising direction for future advancements in photonic electronics.