2016 - 2020 Developments of large-area and high-intensity surface-light-emitting sources using inorganic semiconductors and non-single-crystalline substrates
2013 - 2017 Development of flexible flat panel displays using inorganic semiconductors
2008 - 2010 Preparation and application of crystalline template layers on no crystalline substrates by a quasi-nanoimprinting method
2004 - 2006 Research on preparations of precise-resistance thin-film materials having higher resistivity with zero-temperature dependence
Houyao Xue, Shingo Taniguchi, Tsubasa Saito, Yuichi Sato. Characterization of GaN-Based Nanopillar Light-Emitting Diodes on Multicrystalline Si Substrates: Insights into Emitting-Color Distribution Characteristics. Physica Status Solidi (B) Basic Research. 2024. 261. 11
Houyao Xue, Shingo Taniguchi, Naoyuki Oridate, Tsubasa Saito, Yuichi Sato. Growth and characterization of Mg-doped GaN and InGaN nanopillar-crystals based on steering-crystal-formed multi-crystalline Si substrates. Japanese Journal of Applied Physics. 2024. 63. 1
Yuichi Sato, Houyao Xue, Shingo Taniguchi, Sora Saito, Atomu Fujiwara, Tsubasa Saito. Optical-Emission Properties of GaN-Based Nanopillar Light-Emitting Diodes Prepared on Non-Polished and Non-Single-Crystalline Substrates. Key Engineering Materials. 2023. 967. 57-61
Houyao Xue, Koki Shiraishi, Yosuke Izuka, Sora Saito, Shingo Taniguchi, Tsubasa Saito, Yuichi Sato. Growth and characterization of InN nanopillar-crystals on steering-crystal-formed multi-crystalline Si substrates. Journal of Crystal Growth. 2021. 573
Yuichi Sato, Shingo Taniguchi, Sora Saito, Houyao Xue, Tsubasa Saito. GaN-nanopillar-based light-emitting diodes directly grown on multi-crystalline Si substrates. AIP Advances. 2021. 11. 7
Toru Matsumura, Yuichi Sato. Appearance and Relaxation of Unusual Values in the van der Pauw Measurements of the Inhomogeneous Semiconductors by the FEM Simulation. The IEICE Transactions on Electronics (Japanese Edition). 2010. J93-C. 8. 256-263
Investigation of ZnO based Thin Films as Resistance Materials with Small Temperature Coeffficients. Advances in Science and Thchnology. 2006. 45. 2376-2381
