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Chih-Ming Chen
Researcher at National Chung Hsing University
Publications - 327
Citations - 9729
Chih-Ming Chen is an academic researcher from National Chung Hsing University. The author has contributed to research in topics: Educational technology & Dye-sensitized solar cell. The author has an hindex of 44, co-authored 317 publications receiving 8328 citations. Previous affiliations of Chih-Ming Chen include University of Education, Winneba & Academia Sinica.
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Impurity evaporation and void formation in Sn/Cu solder joints
TL;DR: In this article, the authors reported an unusual phenomenon of voiding in the Sn/Cu solder joints and the most unique finding is that the voids were formed at the solder side rather than at the Cu side due to Kirkendall effect.
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Thermal and angular dependence of next‐generation photovoltaics under indoor lighting
Chia Yuan Chen,Ting Yang Kuo,Chien Wu Huang,Zih Hong Jian,Po Tsung Hsiao,Chin Li Wang,Jian Ci Lin,Chien-Yu Chen,Chao Hsuan Chen,Yung Liang Tung,Ming-Chi Tsai,Kuan Min Huang,Chih-Ming Chen,Cheng Wei Hsu,Yen Chiao Chen,Zingway Pei,Yogesh S. Tingare,Hsien-Hsin Chou,Chen-Yu Yeh,Ching-Yao Lin,Yuh Lang Lee,Hao-Wu Lin,Hsin-Fei Meng,Pi-Tai Chou,Chun Guey Wu +24 more
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Enhancement of English learning performance by using an attention-based diagnosing and review mechanism in paper-based learning context with digital pen support
TL;DR: This work confirms that developing an ADRM based on brainwave detection to assist learners’ review processes is practicable, however, the usability and acceptability of using ADRM instead of human autonomous review should be further considered in the information society.
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Interfacial reactions of Sn–58Bi and Sn–0.7Cu lead-free solders with Alloy 42 substrate
TL;DR: Eutectic lead-free solders reacting with Alloy 42 substrates were investigated at 240, 270, 300, and 330 °C for various reaction times and presented a diffusion controlled growth mechanism in both SB/Alloy 42 and SC/ alloy 42 couples.
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Increasing solar light efficiency by engineering cell structures with modified Ti foil and specific concentrations of electrolyte in liquid dye-sensitized solar cells
TL;DR: In this paper, the variation in solar power efficiency was investigated by manufacturing solar devices with Ti sheets modified by anodizing oxidation technology (AOT) followed by H2O2 etching, which showed that the improved efficiency of the solar cell could be attributed to the robust and nanoporous structure of the surface layer on the Ti sheet, which was created by sequential AOT treatment and peroxide etching.