公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2002 | Metal characterization and process enhancement techniques for photolithographic materials | Ko, F.-H.; Chen, H.-L.; Hsu, C.-C.; Chu, T.-C.; HSUEN-LI CHEN | Proceedings of SPIE-The International Society for Optical Engineering | | | |
2014 | Multifunctional TiO2 Microflowers with Nanopetals as Scattering Layer for Enhanced Quasi-Solid-State Dye-Sensitized Solar Cell Performance | Shih, P.-C.; Peng, J.-D.; Lee, C.-P.; Lin, R.Y.-Y.; Chu, T.-C.; Vittal, R.; Ho, K.-C.; KUO-CHUAN HO | ChemElectroChem | | | |
2002 | Nanometer-size PMMA polymer network synthesis by gold nanoparticles template | Liu, F.-K.; Hsieh, S.-Y.; Ker, C.-J.; Chen, H.-L.; Kol, F.-H.; Chu, T.-C.; Dail, B.-T.; HSUEN-LI CHEN | 2002 International Microprocesses and Nanotechnology Conference, MNC 2002 | | | |
2014 | Phenothiazinedioxide-conjugated sensitizers and a dual-TEMPO/iodide redox mediator for dye-sensitized solar cells | Lin, R.Y.-Y.; Chu, T.-C.; Chen, P.-W.; Ni, J.-S.; Shih, P.-C.; Chen, Y.-C.; Ho, K.-C.; Lin, J.T.; KUO-CHUAN HO | ChemSusChem | | | |
2001 | Process development and impurities analysis for the bottom antireflective coating material | Ko, F.-H.; Chen, H.-L.; Huang, T.-Y.; Cheng, H.-C.; Ko, C.-J.; Chu, T.-C.; HSUEN-LI CHEN | Proceedings of SPIE - The International Society for Optical Engineering | | | |
2015 | Recent progress in organic sensitizers for dye-sensitized solar cells | Lee, C.-P.; Lin, R.Y.-Y.; Lin, L.-Y.; Li, C.-T.; Chu, T.-C.; Sun, S.-S.; Lin, J.T.; Ho, K.-C.; KUO-CHUAN HO | RSC Advances | | | |
2003 | Solution-based silver nanowires filling into carbon nanotubes by microwave heating technology | Lee, C.-Y.; Ko, C.-J.; Ko, F.-H.; Chen, H.-L.; Chu, T.-C.; HSUEN-LI CHEN | Digest of Papers - Microprocesses and Nanotechnology 2003 - 2003 International Microprocesses and Nanotechnology Conference, MNC 2003 | | | |
2013 | Solution-grown zno nanostructures for application in dye-sensitized solar cells | Lee, C.-P.; Kung, C.-W.; Chu, T.-C.; Ho, K.-C.; KUO-CHUAN HO | Handbook of Functional Nanomaterials | | | |