top of page

Research

Research.jpg

Representative Publications

[1] C. P. Lee, C. T. Li, and K. C. Ho, “Use of Organic Materials for Dye-Sensitized Solar Cells”, Mater. Today 20 (2017) 267-283. (Impact factor:24.537; Rank: 5/285 in Materials Science, Multidisciplinary; Citation: 7)

[2] C. P. Lee, K. Y. Lai, C. A. Lin, C. T. Li, K. C. Ho, C. I. Wu, S. P. Lau and J. H. He, “A paper-based electrode using a graphene dot/PEDOT:PSS composite for flexible solar cells”, Nano Energy 36 (2017) 260-267. (Impact factor: 13.120; Rank: 15/285 in Materials Science, Multidisciplinary; Citation: 19)

[3] C. P. Lee, Wei-Fu Chen, Tadesse Billo, Yan-Gu Lin, Fang-Yu Fu, Satya·N Samireddi, Chih-Hao Lee, Jih-Shang Hwang, Kuei-Hsien Chen and Li-Chyong Chen, “Beaded−Stream−like CoSe2 Nanoneedles Array for Efficient Hydrogen Evolution Electrocatalysis”, J. Mater. Chem. A. 4 (2016) 4553-4561. (Impact factor: 9.931; Rank: 20/275 in Materials Science, Multidisciplinary; Citation: 30)

[4] C. P. Lee, C. A. Lin, T. C. Wei, M. L. Tsai, Y. Meng, C. T. Li, K. C. Ho, C. I. Wu, S. P. Lau and J. H. He, “Economical low–light photovoltaics by using the Pt–free dye–sensitized solar cell with graphene dot/PEDOT:PSS counter electrodes”, Nano Energy 18 (2015) 109-117. (Impact factor: 13.120; Rank: 15/285 in Materials Science, Multidisciplinary; Citation: 25)

[5] C. P. Lee, Lunet Luna, Steven DelaCruz, Carlo Carraro, and Roya Maboudian, “Hierarchical Cobalt Oxide–decorated Silicon Carbide Nanowire Arrays for Efficient Oxygen Evolution Reaction”, Materials Today Energy 7 (2018) 37-43. (Impact factor: N.A.; Rank: N.A.; Citation: 0)

[6] C. P. Lee, C. T. Li, M. S. Fan, Huang, Yi-June, S. R. Li, L. Y. Chang, Chuan-Ming Tseng, S. S. Sun, Jiang-Jen Lin, and K. C. Ho, “Microemulsion-assisted Zinc Oxide Synthesis: Morphology Control and its Applications in Photoanodes of Organic Dye-Sensitized Solar Cells”, Electrochim. Acta. 210 (2016) 483-491. (Impact factor: 5.116; Rank: 5/28 in Electrochemistry; Citation: 4)

[7] C. P. Lee, R. Y. Y. Lin, L. Y. Lin, C. T. Li, T. C. Chu, S. S. Sun, J. T. Lin and K. C. Ho, “Recent progress in organic sensitizers for dye-sensitized solar cells”, RSC Adv. 5 (2015) 23810-23825. (Impact factor: 2.936; Rank: 71/171 in Chemistry, Multidisciplinary; Citation: 101)-----Highly cited paper

[8] C. P. Lee, P. Y. Chen, R. Vittal and K. C. Ho, “Iodine-free high efficient quasi solid-state dye-sensitized solar cell containing ionic liquid and polyaniline-loaded carbon black”, J. Mater. Chem. 20 (2010) 2356-2361. (Impact factor: 6.626; Rank: 22/251 in Materials Science, Multidisciplinary; Citation: 83)-----Highly cited paper

[9] C. P. Lee, L. Y. Lin, P. Y. Chen, R. Vittal and K. C. Ho, “All-solid-state dye-sensitized solar cells incorporating SWCNTs and crystal growth inhibitor”, J. Mater. Chem. 20 (2010) 3619-3625. (Impact factor: 6.626; Rank: 22/251 in Materials Science, Multidisciplinary; Citation: 51)-----Highly cited paper

[10] Chi-Ang Tseng‡, Chuan-Pei Lee ‡ (‡Equal contribution), Y. J. Huang, Hao-Wei Pang, K. C. Ho, and Yit-Tsong Chen, “One-step synthesis of graphene hollow nanoballs with various nitrogen-doped states for electrocatalysis in dye-sensitized solar cells”, Materials Today Energy 8 (2018) 15-21. (Impact factor: N.A.; Rank: N.A.; Citation: 0)

[11] L. Y. Chang‡, C. P. Lee‡ (‡Equal contribution), C. T. Li, M. H. Yeh, K. C. Ho and J. J. Lin, “Synthesis of A Novel Amphiphilic Polymeric Ionic Liquid and Its Application in Quasi–Solid–State Dye-Sensitized Solar Cells”, J. Mater. Chem. A 2 (2014) 20814-20822. (Impact factor: 9.931; Rank: 20/285 in Materials Science, Multidisciplinary; Citation: 16)

[12] C. T. Li‡, C. P. Lee‡ (‡Equal contribution), C. T. Lee, S. R. Li, S. S. Sun and K. C. Ho, “Iodide-Free Ionic Liquid with Dual Redox Couples for Dye-Sensitized Solar Cells with High Open-Circuit Voltage”, ChemSusChem 8 (2015) 1244-1253. (Impact factor: 7.411; Rank: 24/171 in Chemistry, Multidisciplinary; Citation: 12)

[13]C. P. Lee, and K. C. Ho, “Poly(ionic liquid)s for dye-sensitized solar cells: A mini-review”, Eur. Polym. J., 108 (2018) 420-428. (Impact factor:3.741; Rank: 12/87 in Polymer Science)

bottom of page