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Sammy Lap Ip Chan, Professor

Sammy Lap Ip Chan - Chair Professor
陳立業 講座教授
2010            Ph.D. in Materials Science, University of Cambridge, UK
 |                 Honorary Professor, School of Materials Science and Engineering, UNSW, Australia
 |                 Professor, Department of Materials Science and Engineering, National Taiwan University
Ext.: 34223
Office: Engineering Building 1, E306
Lab: Hydrogen Energy Materials Laboratory - Engineering Building 1, E214
Email:  Slichan@ncu.edu.tw
 
Professor Sammy Lap Ip Chan

Research Interests

Energy Materials, Hydrogen Storage Materials, Battery Technologies.

International Professional Memberships & Qualifications

Fellow of the Institute of Materials, Minerals and Mining (FIMMM), UK
Fellow of the Australian Institute of Energy, Australia
Chartered Engineer (CEng), Engineering Council, UK
Chartered Scientist (CSci), Science Council, UK
Editor-in-Chief, Materials Chemistry and Physics (Elsevier)
Listed in the World's Top 2% Scientists (Career-long impact, 1960-2020)
Listed in the World's Top 2% Scientists (Single year impact, 2020)

Recent Publications (Last 5 Years)

  1. B. Arkhurst, D. Gunawan, L. Oppong-Antwi, R Guo, A.N. Ashong, X. Fan, G. B. Rokh, S.L.I. Chan* (2025): “A novel technique of reducing nanotube clustering for enhanced hydrogen evolution: Two-fold precursor mixing and P-doping synergy of carbon nitride nanotubes”, Applied Surface Science, 708, 163664.

  2. Y. Zhou, R. Guo, H. Li, G.B. Rokh, TY Wei, S.L.I. Chan* (2025): Revealing the effect of Y substitution on the hydrogen storage performance and structure of La–Ca–Mg–Ni alloy system International Journal of Hydrogen Energy, 177, 151424

  3. B. Arkhurst, R. Guo, X. Fan, G. B. Rokh, L. Oppong-Antwi, D. Gunawan, A.N. Ashong, S.L.I. Chan* (2025): “High surface area carbon nitride nanotubes for improved hydrogen storage: A grinding and solution mixing approach”, Materials Today Chemistry, 48, 102930

  4. Y.C. Kang, B. Arkhurst, S.L.I. Chan* (2025): “High creep performance of a nano-SiC particulate reinforced 7775 Aluminium matrix composite at elevated temperatures”, Materials Chemistry and Physics, 131270

  5. B. Arkhurst, R. Guo, X.Y. Fan, G. B. Rokh, L.O. Antwi, D. Gunawan, A.N. Ashong, S.L.I. Chan* (2025): “Hybrid fabrication and augmented calcination approach for synergistically enhanced surface area and hydrogen storage performance of g-C3N4”, Journal of Energy Storage, 132 117805. 

  6. Z. Zhang, J. Liang, S.L.I. Chan, J. Ju, Y. Zhou, J. Wang (2025): “Synergistic strengthening mechanisms and multiple deformation behaviors of in-situ synthesized Al2O3 nanoparticles reinforced CoCrFeNiAl0.3 high entropy alloy matrix”, Materials Science and Engineering: A 924, 147785

  7. B. Arkhurst, R. Guo, D. Gunawan, L. Oppong-Antwi, A.N. Ashong, X.Y. Fan, G.B. Rokh, S.L.I. Chan* (2024): “Scalable fabrication of high surface area g-C3N4 nanotubes for efficient photocatalytic hydrogen production”, International Journal of Hydrogen Energy, 87, pp. 321-331. JIF= 8.1  (Q1 37/270) (SCI).

  8. Z. Zhang, Y.H. Xie, J.M. Liang, Y. Zhou, S.L.I. Chan, J. Wang (2024): “Multistage strain hardening facilitated by in-situ TiO(C) nanoparticles in CoCrFeMnNi high entropy nanocomposite subjected to high strain rate compression”, Intermetallics, 167. JIF= 4.4  (Q1 19/170) (SCI).

  9. Z. Zhang, J.M. Liang, S.L.I. Chan, J. Ju, Y. Zhou, J. Wang (2024): “Plastic deformation behavior of pre-twinned CoCrFeNi high entropy alloy under quasistatic and dynamic deformation”, Materials Characterization, 209. JIF= 4.8  (Q1 98/672) (SCI).

  10. R. Guo, B. Arkhurst, X. Fan, M. Lee, W. Lin, Y. Shih, G Bahmanrokh, H. Li, S. Sasmita, Y. Zhou, S.L.I. Chan* (2023): “Unveiling room temperature hydrogen storage in tubular graphitic carbon nitride with diverse morphologies”, Energy Conversion and Management, 20, 100496. JIF= 9.9 (Q1 2/77) (SCI).

  11. Y.S. Tseng, I. Retita, J. Andrews, D. Liang, S.L.I. Chan* (2023): “Tailor-designed vanadium alloys for hydrogen storage in mote area and movable power supply systems”, Journal of Energy Storage, 68, 107659. JIF= 8.9 (Q1 65/797) (SCI).

  12. R. Guo, Y-S Tseng, I. Retita1, G.B. Rokh, B. Arkhurst, S.L.I. Chan*, (2023): “A detailed experimental comparison on the hydrogen storage ability of different forms of graphitic carbon nitride (bulk, nanotubes and sheets) with multiwalled carbon nanotubes”, Accepted (3/15/2023) and to be published in Materials Today Chemistry.  JIF= 7.613  (Q1 40/179) (SCI).

  13. Z. Zhang, J. Liang, T. Xia, Y. Xie, S.L.I. Chan, J. Wang, D. Zhang (2023): “Effects of Oxide Fragments on Microstructure and Mechanical Properties of AA6061 Aluminum Alloy Tube Fabricated by Thermomechanical Consolidation of Machining Chips”, Materials 16 (4), 1384. (Q1, 40/179) (SCI)

  14. Z. Zhang, Q. Wang, D. Mu, G. Shen, M. Liu, M. Zhang, S.L.I. Chan, J. Liang, (2022): “Microstructure evolution and mechanical properties of CoCrFeNiAl0. 3 high entropy alloy produced by ball milling in combination with thermomechanical consolidation”, Materials Characterization 187, 111833. (Q1, 3/32) (SCI)

  15. 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, 441, 128511. JIF = 4.16 (Q1, 40/160) (SCI)

  16. 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, 101459      JIF = 10.04 (Q1, 39/333) (SCI)

  17. 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, 111833 JIF = 4.34     (Q1, 3/32) (SCI)

  18. 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, 125405. JIF = 4.09     (Q2, 126/334) (SCI)

  19. Z. Zhang, Z. Jiang, Y. Xie, S.L.I. Chan, J. Liang, J. Wang (2022): “Multiple deformation mechanisms induced by pre-twinning in CoCrFeNi high entropy alloy”. Scripta Materialia, 207, 114266   No. of citations= 8.   JIF = 5.61 (Q1, 5/80) (SCI)

  20. 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.   No. of citations= 3.   JIF = 4.93 (Q1, 27/138) (SCI)

  21. 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 CoCrFeNiAl0.3 high entropy alloys reinforced with Cr2O3/Al2O3 nanoparticles”, Materials Science and Engineering A. 816, 141313.  No. of citations= 5.    JIF = 5.234 (Q1, 8/80) (SCI) 

  22. D. Guo, C.T. Kwok, S.L.I. Chan and L.M. Tam (2021): “Friction surfacing of AISI 904L super austenitic stainless steel coatings: Microstructure and properties”, Surface & Coating Technology, 408, Article number: 126811. No. of citations= 4.  JIF = 4.16 (Q1, 40/160) (SCI)

  23. 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 (7), 5441-5448. No. of citations= 4 JIF = 4.94

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