Li, C. S., Li, Y. N., Wu, Y. L., Ong, B. S., & Loutfy, R. O. (2008). Performance improvement for solution-processed high-mobility ZnO thin-film transistors Journal of Physics D: Applied Physics, 41, 125102.
References
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2008
Wu, Y., Li, Y., Liu, P., Pan, H., & Ong, B. (2008). Development of Thiophene-based Polymeric Semiconductors for Printed Thin-Film Transistors ECS Transactions, 11, 35.
Li, Y., Liu, P., Wu, Y., & Ong, B. S. (2008). Poly [bis (ethynyl) heteroacene] s and electronic devices generated therefrom
Wu, Y., Li, Y., & Ong, B. S. (2008). Electronic device having coalesced metal nanoparticles
Li, Y., & Ong, B. S. (2008). Semiconductor layer for thin film transistors
2007
Wu, Y., Li, Y., & Ong, B. S. (2007). A simple and efficient approach to a printable silver conductor for printed electronics Journal of the American Chemical Society, 129, 1862\textendash1863.
Ong, B. S., Li, Y., & Wu, Y. (2007). Fabrication process for crystalline zinc oxide semiconductor layer
Li, C., Li, Y., Wu, Y., Ong, B. S., & Loutfy, R. O. (2007). ZnO field-effect transistors prepared by aqueous solution-growth ZnO crystal thin film American Institute of Physics.
Li, Y., Wu, Y., & Ong, B. S. (2007). Stabilized silver nanoparticles and their use
Pan, H., Li, Y., Wu, Y., Liu, P., Ong, B. S., Zhu, S., & Xu, G. (2007). Low-temperature, solution-processed, high-mobility polymer semiconductors for thin-film transistors Journal of the American Chemical Society, 129, 4112\textendash4113.