陳立業 教授
學校分機：34223
學校信箱：Slichan@ncu.edu.tw
實驗室:氫能材料實驗室 E214
實驗室網站：https://ncuhydrogen.wixsite.com/27255
研究室：工程一館 E306

學歷：
英國劍橋大學 材料科學 博士

研究領域：
能源材料、儲氫材料、電池技術

經歷：
澳洲新南威爾士大學材料科學與工程學院 榮譽教授
國立臺灣大學材料科學與工程系教授

國際重要學術組織職務及任用資格：
英國材料、採礦和礦物學會會士
澳大利亞能源學會會士
英國工程委員會特許工程師
英國科學委員會特許科學家
國際期刊《材料化學與物理》總主編，出版社：Elsevier
入選全球前2%「終身科學影響力排行榜（1960-2020）」
入選全球前2%「2020年度科學影響力排行榜」

近五年發表之著作 : 
1. D. Guo, W.I. Lam, T. Kwok, S.L.I. Chan, W. Li, G. Yang, L.M. Tam (2022): “A study on formation mechanism of friction-surfaced stainless steel coating via a stop-action method”; Surface and Coatings Technology, In press and available on line 10 May 2022
2. R. Abbasi, J. Tang, M. Baharfar, C. Zhang, F-M Allioux, J. Zhang, M. Tajik, J. Yang, J. Biazik, F. Centurion, J. Han, S. S. Mofarah, D. Esrafilzadeh, P. Koshy, C.C. Sorrel, S.L.I. Chan, Md. A. Rahim, K-Z Kourosh, (2022): “Induction heating for the removal of liquid metalbased implant mimics: A proof-of-concept”; Applied Materials Today, 27, p. 101459.
3. Z. Zhang, Q. Wang, D. Mu, G. Shen, M. Liu, M. Zhang, S.L.I. Chan, J. Liang, J. Wang, (2022): “Microstructure evolution and mechanical properties of CoCrFeNiAl0.3 high entropy alloy produced by ball milling in combination with thermomechanical consolidation”; Materials Characterization, 187, p. 111833.
4. H. Li, I. Retita, J. Huang, S.L.I. Chan (2022): “Hydrogen storage capability of porous silicon powder fabricated from Al-Si alloy”, Materials Chemistry and Physics, 276, p. 125405.
5. Z. Weng, I. Retita, Y-S Tseng, A.J. Berry, D.R. Scott, D. Leung, Y. Wang and S.L.I. Chan, (2021): “γ-MgH₂ induced by high pressure for low temperature dehydrogenation”; International Journal of Hydrogen Energy, 46, pp. 5441-5448.
6. M. Cheytani, S.L.I. Chan (2021): “The applicability of the Wenner method for resistivity measurement of concrete in atmospheric conditions”; Case Studies in Construction Materials, 15, e00663.
7. Z. Zhang, Y.H. Xie, X.Y. Huo, S.L.I. Chan, J.M .Liang, Y.F. Luo, D.K.Q. Mu, J. Ju, J. Sun, J. Wang, (2021): “Microstructure and mechanical properties of ultrafine grained CoCrFeNi and CoCrFeNiAl_0.3 high entropy alloys reinforced with Cr₂O₃/Al₂O₃
nanoparticles”; Materials Science and Engineering A, 816, p. 141313
8. Z. Weng, I. Retita, Y-S Tseng, A.J Berry, D.R Scott, D. Leung, Y. Wang, S.L.I. Chan (2021): “γ-MgH₂ induced by high pressure for low temperature dehydrogenation”; International Journal of Hydrogen Energy, 46, pp. 5441-5448.
9. P. Pongali, W.Y. Wong, S.K. Kamarudin, N.A.H. Abas, A.L.S. Lo, S.L.I. Chan, K.L. Lim, (2020):  “Corrosion and discharge performance of aluminum alloy (Al 6061) as anode for electrolyte activated battery”; Sains Malaysiana, 49, pp. 3189-3200. 
10. N.F. Hayazi, Y. Wang and S.L.I. Chan, (2020): “Unlocking the metastable phases and mechanisms in the dehydrogenation process of titanium hydride”; Materials Characterization, 161, pp. 110-128.
11. D. Guo, C.T. Kwok and S.L.I. Chan, (2019): “Spindle speed in friction surfacing of 316L stainless steel–How it affects the microstructure, hardness and pitting corrosion resistance”; Surface and Coatings Technology, 357, p. 339.
12. D. Guo, C.T. Kwok and S.L.I. Chan, (2019): “Strengthened Forced Convection – A Novel Method for Improving the Pitting Corrosion Resistance of Friction-Surfaced Stainless Steel Coating”; Materials and Design, 182, p. 108037.
13. S. Gurpreet, S.L.I. Chan and S. Neeraj, (2018): “Parametric study on the dry sliding wear behaviour of AA6082–T6/TiB₂ in situ composites using response surface methodology”; Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40(6), p. 310.
14. D. Guo, C.T. Kwok and S.L.I. Chan, (2018): “Fabrication of stainless steel 316L/TiB₂ composite coating via friction surfacing”; Surface & Coatings Technology, 350, pp. 936-948.
15. K.L. Lim, Y. Liu, Q.A. Zhang, K.S. Lin, S.L.I. Chan, (2017): “Cycle stability of La-Mg-Ni based hydrogen storage alloys in a gas–solid reaction”; International Journal of Hydrogen Energy, 42(37), pp. 23737-23745.
16. Y. Wei, KL Lim, YS Tseng, S.L.I. Chan, (2017): “A review on the characterization of hydrogen in hydrogen storage materials”; Renewable and Sustainable Energy Reviews, 79, pp. 1122-1133.
17. G-X Li, Z-Q Lan, Y-S Tseng, W-Z Z, J Guo, S.L.I. Chan, (2017): “Penetration and Diffusion of Hydrogen in Mg₂Ni: a First-principles Investigation”; International Journal of Hydrogen Energy, 42(5), pp. 3097-3105.