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Research Contributions in Plastic Solar Cell Fabrication and Characterization Since 2005

Since 2005, I have published 51 journal articles, accumulating an impressive impact factor of 190.666, with 511 total citations across my research on plastic solar cells. My work includes excimer lifetime mapping, creating ordered BHJ structures, and various fabrication techniques. Despite the absence of US or Taiwan patents and awards, my contributions lay the groundwork for advancements in solar energy materials. My research is documented in leading journals, reflecting significant findings in the fields of materials engineering and polymer chemistry.

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Research Contributions in Plastic Solar Cell Fabrication and Characterization Since 2005

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  1. Statistics 1. No. of journal publications since 2005 : 51 (Including PhD’s work) 41 2. Accumulated IF for these papers. : 190.666 (Including PhD’s work) 151.398 (after joining RCAS) 3. Accumulated citations for these papers. : 511 (Including PhD’s work) 161 (after joining RCAS) 4. No. of US patents and Taiwan's patents. : None 5. Awards, Editorship, elected Fellow, etc. received since 2005 : None

  2. Plastic solar cells fabrications and characterizations Exciton lifetime mapping Ordered BHJ structure Rapidly grown film Slowly grown film 50 nm 2 exciton diffusion length Anal. Chem. 82, 1669 (2010) J. Phys. Chem. C 114, 2764 (2010)

  3. Material engineering for plastic solar cells δ- Acceptor Tandem cell Top contact Top cell _ Middle contact Middle cell + δ+ Donor Middle contact E = N, C, Si • Solubility • Energy Level • Carrier Transport • (Chain packing) Bottom cell Bottom contact • J. Polym. Sci., Part A: Polym. Chem.  48 1669 (2010); Org. Lett. 11, 4898 (2009); J. Polym. Sci., Part A: Polym. Chem. 47, 5998 (2009); Org. Electron. 10, 1109 (2009); Macromolecules 42. 3681 (2009).

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