Ming-Fa Lin

Taiwanese theoretical physicist
  • Physics
    • Condensed matter physics
    • Material science
    • Nanotechnology
    • InstitutionsNational Cheng Kung UniversityThesisMany-Body Effects in Graphite Intercalation Compounds and Graphene Tubules (1993)Doctoral advisorKenneth Wen-Kai Shung

    Ming-Fa Lin (Taiwanese Mandarin: 林 明發, Taiwanese Hokkien: Lîm Bîng-Huat; (1962-07-02)July 2, 1962 - August 14, 2023(2023-08-14) (aged 61)[1][2]) was a Taiwanese theoretical physicist. He was a distinguished professor in the Department of Physics of National Cheng Kung University in Tainan, Taiwan. His main scientific interests focus on the essential properties of carbon-related materials and low-dimensional systems. He presided over more than 10 Ministry of Science and Technology research projects. He published more than 300 peer-reviewed articles and over 10 academic books. His research principles include innovation, uniqueness, diversity, completeness, and generalization.[3]

    Education and career

    He received a B.S. degree in physics from National Cheng Kung University in 1984. Later he received the M.S.,[4] and Ph.D. degrees in physics from National Tsing Hua University (Hsinchu, Taiwan) in 1986 and 1993, respectively.[5][6]

    As a postdoctoral fellow in physics from the National Tsing-Hua University, he stayed until 1995. After three years in the National Chiao Tung University (Hsinchu, Taiwan), 1995–1997, he became a professor in the National Cheng Kung University. M. F. Lin was a member of the American Physical Society, American Chemical Society, Physical Society of Taiwan,[7] and Taiwan Association of University Professors.[8]

    Professional experience

    Research fields

    Professor Lin has performed research in the fields of solid-state physics, condensed matter physics, materials science, nano science, carbon nanotube, graphene, graphene nanoribbon, carbon-related materials, low-dimensional materials, semiconductor, and energy materials.

    Honors and awards

    • 1997.08 - 1998.07: Research Award, National Science Council, Taiwan[11]
    • 1998.08 - 1999.07: Research Award, National Science Council, Taiwan[12]
    • 1999.08 - 2000.07: Research Award, National Science Council, Taiwan[13][14]
    • 2000.08 - 2001.07: Research Award, National Science Council, Taiwan[15]
    • 2023.10: Career-long top 2% of the world's top scientists in 2022, Elsevier Data Repository[16][17]

    Research highlights

    Optical properties of graphene nanoribbons

    Absorption spectra of monolayer graphene nanoribbons with N y = 72 {\displaystyle N_{y}=72}
    (a) The zigzag graphene nanoribbons possess an optical selection rule of Δ J = o d d {\displaystyle \Delta J=odd} . (b) The armchair graphene nanoribbons possess an optical selection rule of Δ J = 0 {\displaystyle \Delta J=0} .[18][7][19][20]

    In 2000, Lin cooperated with Shyu to calculate the optical properties of graphene nanoribbons numerically.[21][7] The different selection rules for optical transitions in zigzag and armchair graphene nanoribbons were first reported. In 2007, these results were supplemented by a comparative study of zigzag graphene nanoribbons with single-wall armchair carbon nanotubes by Hsu and Reichl.[22] In 2011, Lin conducted Chung et al. to analyze and report the edge-dependent optical selection rules analytically.[18][7][19] In the meantime, Sasaki et al. also reported their theoretical prediction as a confirmation.[20]

    The selection rule in zigzag graphene nanoribbons differs from that in armchair graphene nanoribbons. Optical transitions between the edge and bulk states enrich the low-energy region absorption spectrum ( < {\displaystyle <} 3 eV) with high-intensity absorption peaks. Analytical derivation of the numerically obtained selection rules was presented in 2011.[18][7][19][20] The selection rule for the incident light polarized longitudinally to the zigzag nanoribbon axis is that | Δ J | = | J c J v | = o d d {\displaystyle |\Delta J|=|J^{c}-J^{v}|=odd} , where J c {\displaystyle J^{c}} and J v {\displaystyle J^{v}} are index number for the conduction and valence energy subbands, respectively. For armchair graphene nanoribbons, the selection rule is Δ J = J c J v = 0 {\displaystyle \Delta J=J^{c}-J^{v}=0} .[18][7][19][20]

    Research projects

    PI

    1. 1997.11 - 1998.07: Physical Properties of Carbon Nanotubes (I)[23]
    2. 1998.08 - 1999.07: Physical Properties of Carbon Toroids (I)[24]
    3. 1999.08 - 2000.07: Physical Properties of Carbon Toroids and Carbon Nanotubes (III)[25]
    4. 2000.08 - 2001.07: Physical Properties of Graphite-Related Systems and Two-Dimensional Modulated Electronic Systems (I)[26]
    5. 2001.08 - 2002.07: Physical Properties of Graphite-Related Systems and Two-Dimensional Modulated Electronic Systems (II)[27]
    6. 2002.08 - 2003.07: Physical Properties of Graphite-Related Systems and Two-Dimensional Modulated Electronic Systems (III)[28]
    7. 2003.08 - 2004.07: Many-Body Physical Properties of Carbon Nanotubes (I)[29]
    8. 2004.08 - 2005.07: Many-Body Physical Properties of Carbon Nanotubes (II)[30]
    9. 2005.08 - 2006.07: Many-Body Physical Properties of Carbon Nanotubes (III)[31]
    10. 2006.08 - 2007.07: Physical Properties of Low-Dimensional Carbon-Related Systems (I)[32]
    11. 2008.08 - 2009.07: Physical Properties of Low-Dimensional Carbon-Related Systems (II)[33]
    12. 2007.08 - 2008.07: Physical Properties of Low-Dimensional Carbon-Related Systems (III)[34]
    13. 2009.08 - 2010.07: Electronic Properties of Layered Systems in the Presence of External Fields (I)[35]
    14. 2010.08 - 2011.07: Electronic Properties of Layered Systems in the Presence of External Fields (II)[36]
    15. 2011.08 - 2012.07: Electronic Properties of Layered Systems in the Presence of External Fields (III)[37]
    16. 2012.08 - 2013.07: Electronic Properties of Layered Systems in the Presence of External Fields (IV)[38]
    17. 2013.08 - 2014.07: Physical Properties of Graphene Systems (I)[39]
    18. 2014.08 - 2015.07: Physical Properties of Graphene Systems (II)[40]
    19. 2015.08 - 2016.07: Physical Properties of Graphene Systems (III)[41]
    20. 2016.08 - 2017.07: Essential Properties of IV-Group 2D Systems (I)[42]
    21. 2017.08 - 2018.07: Essential Properties of IV-Group 2D Systems (II)[43]
    22. 2018.08 - 2019.07: Essential Properties of IV-Group 2D Systems (III)[44]
    23. 2019.08 - 2020.07: Theoretical Frameworks for Essential Properties of Layered Systems (I)[45]
    24. 2020.08 - 2021.07: Theoretical Frameworks for Essential Properties of Layered Systems (II)[46]
    25. 2021.08 - 2022.07: Theoretical Frameworks for Essential Properties of Layered Systems (III)[47]
    26. 2022.08 - 2023.07: The Basic Science under the Quasi-Particle Framework (I)[48]
    27. 2023.08 - 2024.07: The Basic Science under the Quasi-Particle Framework (II)[49]

    Co-PI

    1. 2014.08 - 2015.07: MBE Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications (I)[50]
    2. 2015.08 - 2016.07: MBE Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications (II)[51]
    3. 2016.08 - 2017.07: MBE Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications (III)[52]

    Selected publications

    More than 300 peer-reviewed articles are published and listed in abstract and citation databases.

    1. Ming-Fa Lin's publications indexed by the Scopus bibliographic database. (subscription required)
    2. Ming-Fa Lin publications indexed by Google Scholar

    The selected publications are listed.

    Books

    1. Optical Properties of Graphene in Magnetic and Electric Fields[53]
    2. Theory of Magnetoelectric Properties of 2D Systems[54]
    3. Structure- and Adatom-Enriched Essential Properties of Graphene Nanoribbons[55]
    4. Handbook of Green Energy Materials[56]
    5. Coulomb Excitations and Decays in Graphene-Related Systems[57]
    6. Diverse Quantization Phenomena in Layered Materials[58]
    7. Geometric and Electronic Properties of Graphene-Related Systems: Chemical Bonding Schemes[59]
    8. Silicene-Based Layered Materials[60]
    9. Electronic and Optical Properties of Graphite-Related Systems[61]
    10. Lithium-Ion Batteries and Solar Cells: Physical, Chemical, and Materials Properties[62]
    11. Rich Quasiparticle Properties of Low Dimensional Systems[63]
    12. First-Principles Calculations for Cathode, Electrolyte and Anode Battery Materials[64]
    13. Lithium-Related Batteries: Advances and Challenges[65]
    14. Diverse Quasiparticle Properties of Emerging Materials: First-Principles Simulations[66]
    15. Energy Storage and Conversion Materials: Properties, Methods, and Applications[67]
    16. Fundamental Physicochemical Properties of Germanene-related Materials: A Theoretical Perspective[68]
    17. Rich Quasiparticle Properties in Layered Graphene-Related Systems[69]
    18. Chemical Modifications of Graphene-Like Materials[70]

    Review articles

    1. Magneto-electronic properties of multilayer graphenes[71]
    2. Electronic and optical properties of graphene nanoribbons in external fields[7]

    References

    1. ^ "Obituary of Ming-Fa Lin (1962-2023)" (in Chinese (Taiwan)). 18 August 2023.
    2. ^ "Memory Page of Ming-Fa Lin - Mortuary Services and Information Tainan City" (in Chinese (Taiwan)). 24 April 2024.
    3. ^ Prof. Ming-Fa Lin (2022). 2022臻於卓閱:校慶主題書展 國立成功大學物理系 林明發老師 [2022 Reaching for Excellence: School Anniversary Theme Book Exhibition Teacher Lin Ming-Fa, Department of Physics, National Cheng Kung University] (Motion picture). Tainan, Taiwan: National Cheng Kung University Library.
    4. ^ Lin, Ming-Fa (1986). 兩種易辛自旋相耦合系統之臨界性質 (M.S. thesis) (in Chinese (Taiwan)). National Tsing Hua University. hdl:11296/6mkggd.
    5. ^ Lin, Ming-Fa (1993). Many-Body Effects in Graphite Intercalation Compounds and Graphene Tubules (Ph.D. thesis). National Tsing Hua University.
    6. ^ Lin, Ming-Fa (1993). Many-Body Effects in Graphite Intercalation Compounds and Graphene Tubules (Ph.D. thesis). National Tsing Hua University. hdl:11296/z92prp.
    7. ^ a b c d e f g Chung, Hsien-Ching; Chang, Cheng-Peng; Lin, Chiun-Yan; Lin, Ming-Fa (2016). "Electronic and optical properties of graphene nanoribbons in external fields". Physical Chemistry Chemical Physics. 18 (11): 7573–7616. arXiv:1510.01889. Bibcode:2016PCCP...18.7573C. doi:10.1039/C5CP06533J. PMID 26744847.
    8. ^ "11-20屆 歷屆執委, 台灣教授協會" [11th-20th session of previous executive committee members]. 台灣教授協會 (Taiwan Association of University Professors) (in Chinese (Taiwan)). 6 February 2011.
    9. ^ a b "延攬人才簡介" [Introduction to recruiting talents]. 科學發展 (Science Development) (in Chinese (Taiwan)). 22 (9). Ministry of Science and Technology, Taiwan: 1124–1174. 1994. ISSN 0250-1651.
    10. ^ "延攬人才簡介" [Introduction to recruiting talents]. 科學發展 (Science Development) (in Chinese (Taiwan)). 23 (8). Ministry of Science and Technology, Taiwan: 806–832. 1995. ISSN 0250-1651.
    11. ^ "八十六學年度一般研究獎勵費獲獎名單" [List of general research award recipients for the 86th academic year]. 科學發展 (Science Development) (in Chinese (Taiwan)). 26 (4). Ministry of Science and Technology, Taiwan: 468–489. 1998. ISSN 0250-1651.
    12. ^ "八十七學年度一般研究獎勵費獲獎人名單" [List of general research award recipients for the 87th academic year]. 科學發展 (Science Development) (in Chinese (Taiwan)). 27 (5). Ministry of Science and Technology, Taiwan: 579–605. 1999. ISSN 0250-1651.
    13. ^ "會務報導 - 八十八學年度一般研究獎勵費獲獎名單" [List of general research award recipients for the 88th academic year]. 科學發展 (Science Development) (in Chinese (Taiwan)). 28 (5). Ministry of Science and Technology, Taiwan: 398–422. 2000. ISSN 0250-1651.
    14. ^ "本校教授研究成果亮麗 榮獲國科會傑出研究獎與一般研究獎共352 名額". alumni.ncku.edu.tw (in Chinese (Taiwan)).
    15. ^ "八十九學年度一般研究獎勵費獲獎名單" [List of general research award recipients for the 89th academic year]. 科學發展 (Science Development) (in Chinese (Taiwan)). 29 (5). Ministry of Science and Technology, Taiwan: 364–389. 2001. ISSN 0250-1651.
    16. ^ Ioannidis, John P.A. (October 4, 2023). "October 2023 data-update for "Updated science-wide author databases of standardized citation indicators"". Elsevier Data Repository. V6. doi:10.17632/btchxktzyw.6. Note: The list is not on the page directly. To find the person, the file must be opened and searched. How to search: (1) Download the 'Table_1_Authors_career_2022_pubs_since_1788_wopp_extracted_202310.xlsx' file. (2) After opening it with Excel software, first filter with "National Cheng Kung University". Then filter with "Lin, Ming Fa" (without "-" between Ming and Fa).
    17. ^ "【恭賀】本院陳泉宏、張為民、林明發、許進恭、林弘萍、陳淑慧、葉晨聖、孫亦文、張泰榕、鄭沐政、陳昭宇、吳品頡、黃勝廣、李亞儒教授榮獲2022年全球前2%頂尖科學家" [[Congratulations] Professors Chuan-Hung Chen, Wei-Min Zhang, Ming-Fa Lin, Jinn-Kong Sheu, Hong-Ping Lin, Shu-Hui Chen, Chen-Sheng Yeh, I-Wen Sun, Tay-Rong Chang, Mu-Jeng Cheng, Chao-Yu Chen, Pin-Chieh Wu, Sheng-Kwang Hwang, and Ya-Ju Lee were awarded the top 2% of the world's top scientists in 2022]. science.ncku.edu.tw (in Chinese (Taiwan)). 國立成功大學 理學院 (College of Science, National Cheng Kung University, Taiwan). December 6, 2023.
    18. ^ a b c d Chung, H. C.; Lee, M. H.; Chang, C. P.; Lin, M. F. (7 November 2011). "Exploration of edge-dependent optical selection rules for graphene nanoribbons". Optics Express. 19 (23): 23350. arXiv:1104.2688. doi:10.1364/OE.19.023350.
    19. ^ a b c d Chung, Hsien-Ching (2011). Electronic and Optical Properties of Monolayer and Bilayer Graphene Nanoribbons (PhD thesis). National Cheng Kung University.
    20. ^ a b c d Sasaki, Ken-ichi; Kato, Keiko; Tokura, Yasuhiro; Oguri, Katsuya; Sogawa, Tetsuomi (31 August 2011). "Theory of optical transitions in graphene nanoribbons". Physical Review B. 84 (8): 085458. arXiv:1107.0795. doi:10.1103/PhysRevB.84.085458.
    21. ^ Lin, Ming-Fa; Shyu, Feng-Lin (15 November 2000). "Optical Properties of Nanographite Ribbons". Journal of the Physical Society of Japan. 69 (11): 3529–3532. doi:10.1143/JPSJ.69.3529.
    22. ^ Hsu, Han; Reichl, L. E. (19 July 2007). "Selection rule for the optical absorption of graphene nanoribbons". Physical Review B. 76 (4): 045418. doi:10.1103/PhysRevB.76.045418.
    23. ^ "Physical Properties of Carbon Nanotubes (I), SN: PA8706-1029". Government Research Bulletin (GRB), Taiwan.
    24. ^ "Physical Properties of Carbon Toroids(I), SN: PA8801-0300". Government Research Bulletin (GRB), Taiwan.
    25. ^ "Physical Properties of Carbon Toroids and Carbon Nanotubes (III), SN: PA8905-0264". Government Research Bulletin (GRB), Taiwan.
    26. ^ "Physical Properties of Graphite-Related Systems and Two-Dimensional Modulated Electronic Systems(I), SN: PA8910-0083". Government Research Bulletin (GRB), Taiwan.
    27. ^ "Physical Properties of Graphite-Related Systems and Two-Dimensional Modulated Electronic Systems(II), SN: PA9105-0057". Government Research Bulletin (GRB), Taiwan.
    28. ^ "Physical Properties of Graphite-Related Systems and Ywo-Dimensional Modulated Electronic Systems(III), SN: PA9108-0599". Government Research Bulletin (GRB), Taiwan.
    29. ^ "Many-Body Physical Properties of Carbon Nanotubes (I), SN: PA9208-0264". Government Research Bulletin (GRB), Taiwan.
    30. ^ "Many-Body Physical Properties of Carbon Nanotubes (II), SN: PA9308-0187". Government Research Bulletin (GRB), Taiwan.
    31. ^ "Many-Body Physical Properties of Carbon Nanotubes(III), SN: PA9408-0062". Government Research Bulletin (GRB), Taiwan.
    32. ^ "Physical Properties of Low-Dimensional Carbon-Related Systems, SN: PA9508-0149". Government Research Bulletin (GRB), Taiwan.
    33. ^ "Physical Properties of Low-Dimensional Carbon-Related Systems, SN: PA9706-0175". Government Research Bulletin (GRB), Taiwan.
    34. ^ "Physical Properties of Low-Dimensional Carbon-Related Systems, SN: PA9708-0239". Government Research Bulletin (GRB), Taiwan.
    35. ^ "Electronic Properties of Layered Systems in the Presence of External Fields, SN: PA9807-1452". Government Research Bulletin (GRB), Taiwan.
    36. ^ "Electronic Properties of Layered Systems in the Presence of External Fields, SN: PA9902-0597". Government Research Bulletin (GRB), Taiwan.
    37. ^ "Electronic Properties of Layered Systems in the Presence of External Fields, SN: PA10001-0286". Government Research Bulletin (GRB), Taiwan.
    38. ^ "Electronic Properties of Layered Systems in the Presence of External Fields, SN: PA10101-1357". Government Research Bulletin (GRB), Taiwan.
    39. ^ "Physical Properties of Graphene Systems, SN: PA10207-0081". Government Research Bulletin (GRB), Taiwan.
    40. ^ "Physical Properties of Graphene Systems, SN: PA10301-0537". Government Research Bulletin (GRB), Taiwan.
    41. ^ "Physical Properties of Graphene Systems, SN: PA10401-0266". Government Research Bulletin (GRB), Taiwan.
    42. ^ "Essential Properties of Iv-Group 2d Systems, SN: PA10507-1242". Government Research Bulletin (GRB), Taiwan.
    43. ^ "Essential Properties of Iv-Group 2d Systems, SN: PA10601-0554". Government Research Bulletin (GRB), Taiwan.
    44. ^ "Essential Properties of Iv-Group 2d Systems, SN: PA10701-0177". Government Research Bulletin (GRB), Taiwan.
    45. ^ "Theoretical Frameworks for Essential Properties of Layered Systems, SN: PA10807-3130". Government Research Bulletin (GRB), Taiwan.
    46. ^ "Theoretical Frameworks for Essential Properties of Layered Systems, SN: PA10901-0254". Government Research Bulletin (GRB), Taiwan.
    47. ^ "Theoretical Frameworks for Essential Properties of Layered Systems, SN: PA11007-0679". Government Research Bulletin (GRB), Taiwan.
    48. ^ "The Basic Science under the Quasi-Particle Framework( I ), SN: PA11107-4191". Government Research Bulletin (GRB), Taiwan.
    49. ^ "The Basic Science under the Quasi-Particle Framework( II ), SN: PA11207-0294". Government Research Bulletin (GRB), Taiwan.
    50. ^ "Mbe Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications, SN: PA10307-0814". Government Research Bulletin (GRB), Taiwan.
    51. ^ "Mbe Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications, SN: PA10401-0906". Government Research Bulletin (GRB), Taiwan.
    52. ^ "Mbe Growth, Electronic, Spintronic and Optical Studies on Topological Insulator Films and Advanced Applications, SN: PA10501-1065". Government Research Bulletin (GRB), Taiwan.
    53. ^ Lin, Chiun-Yan; Do, Thi-Nga; Huang, Yao-Kung; Lin, Ming-Fa (December 1, 2017). Optical Properties of Graphene in Magnetic and Electric Fields. IOP Publishing. arXiv:1603.02797. Bibcode:2017opgm.book.....L. doi:10.1088/978-0-7503-1566-1. ISBN 978-0-7503-1566-1.
    54. ^ Chen, S C; Wu, J Y; Lin, C Y; Lin, M F (December 1, 2017). Theory of Magnetoelectric Properties of 2D Systems. IOP Publishing. Bibcode:2017tmpt.book.....C. doi:10.1088/978-0-7503-1674-3. ISBN 978-0-7503-1674-3.
    55. ^ Lin, Shih-Yang; Tran, Ngoc Thanh Thuy; Chang, Sheng-Lin; Su, Wu-Pei; Lin, Ming-Fa (December 20, 2018). Structure- and Adatom-Enriched Essential Properties of Graphene Nanoribbons. Boca Raton London New York: CRC Press, Taylor & Francis Group. arXiv:1801.07285. doi:10.1201/9780429400650. ISBN 9780429400650.
    56. ^ Lin, Ming-Fa; Hsu, Wen-Dung (June 21, 2019). Green Energy Materials Handbook. Boca Raton London New York: CRC Press, Taylor & Francis Group. doi:10.1201/9780429466281. ISBN 978-0-429-46628-1.
    57. ^ Lin, Chiun-Yan; Wu, Jhao-Ying; Chiu, Chih-Wei; Lin, Ming-Fa (July 3, 2019). Coulomb Excitations and Decays in Graphene-Related Systems. Boca Raton London New York: CRC Press, Taylor & Francis Group. arXiv:1901.04160. doi:10.1201/9780429277368. ISBN 978-0-429-27736-8.
    58. ^ Lin, Chiun-Yan; Ho, Ching-Hong; Wu, Jhao-Ying; Do, Thi-Nga; Shih, Po-Hsin; Lin, Shih-Yang; Lin, Ming-Fa (December 16, 2019). Diverse Quantization Phenomena in Layered Materials. Boca Raton London New York: CRC Press, Taylor & Francis Group. arXiv:1905.03220. doi:10.1201/9781003004981. ISBN 978-1-003-00498-1.
    59. ^ Tran, Ngoc Thanh Thuy; Lin, Shih-Yang; Lin, Chiun-Yan; Lin, Ming-Fa (December 18, 2019). Geometric and Electronic Properties of Graphene-Related Systems: Chemical Bonding Schemes. Boca Raton London New York: CRC Press, Taylor & Francis Group. ISBN 9780367892043.
    60. ^ Lin, Shih-Yang; Liu, Hsin-Yi; Nguyen, Duy Khanh; Tran, Ngoc Thanh Thuy; Pham, Hai Duong; Chang, Shen-Lin; Lin, Chiun-Yan; Lin, Ming-Fa (July 1, 2020). Silicene-Based Layered Materials. IOP Publishing. doi:10.1088/978-0-7503-3299-6. ISBN 978-0-7503-3299-6.
    61. ^ Lin, Chiun-Yan; Chen, Rong-Bin; Ho, Yen-Hung; Lin, Ming-Fa (September 30, 2020). Electronic and optical properties of graphite-related systems. Boca Raton London New York: CRC Press, Taylor & Francis Group. ISBN 9781138571068.
    62. ^ Lin, Ming-Fa; Hsu, Wen-Dung; Huang, Jow-Lay (January 18, 2021). Lithium-Ion Batteries and Solar Cells: Physical, Chemical, and Materials Properties. Boca Raton London New York: CRC Press, Taylor & Francis Group. doi:10.1201/9781003138327. ISBN 978-1-003-13832-7.
    63. ^ Lin, Chiun-Yan; Yang, Cheng-Hsueh; Chiu, Chih-Wei; Chung, Hsien-Ching; Lin, Shih-Yang; Lin, Ming-Fa (December 2021). Rich Quasiparticle Properties of Low Dimensional Systems. IOP Publishing. Bibcode:2021rqpl.book.....L. doi:10.1088/978-0-7503-3783-0. ISBN 978-0-7503-3783-0.
    64. ^ Nguyen, Thi Dieu Hien; Lin, Shih-Yang; Chung, Hsien-Ching; Tran, Ngoc Thanh Thuy; Lin, Ming-Fa (December 2021). First-Principles Calculations for Cathode, Electrolyte and Anode Battery Materials. IOP Publishing. Bibcode:2021fcce.book.....N. doi:10.1088/978-0-7503-4685-6. ISBN 978-0-7503-4685-6.
    65. ^ Tran, Ngoc Thanh Thuy; Hsu, Wen-Dung; Huang, Jow-Lay; Lin, Ming-Fa (March 10, 2022). Lithium-Related Batteries: Advances and Challenges. Boca Raton London New York: CRC Press, Taylor & Francis Group. doi:10.1201/9781003263807. ISBN 978-1-003-26380-7.
    66. ^ Hanh, Tran Thi Thu; Dien, Vo Khuong; Tran, Ngoc Thanh Thuy; Ho, Ching-Hong; Nguyen, Thi Dieu Hien; Lin, Ming-Fa (October 7, 2022). Diverse Quasiparticle Properties of Emerging Materials: First-Principles Simulations. Boca Raton London New York: CRC Press, Taylor & Francis Group. doi:10.1201/9781003322573. ISBN 978-1-003-32257-3.
    67. ^ Tran, Ngoc Thanh Thuy; Jan, Jeng-Shiung; Hsu, Wen-Dung; Lin, Ming-Fa; Huang, Jow-Lay (May 3, 2023). Energy Storage and Conversion Materials: Properties, Methods, and Applications. Boca Raton London New York: CRC Press, Taylor & Francis Group. doi:10.1201/9781003367215. ISBN 978-1-003-36721-5.
    68. ^ Lee, Chi-Hsuan; Nguyen, Thi Dieu Hien; Dien, Vo Khuong; Lin, Shih-Yang; Lin, Ming-Fa (May 23, 2023). Fundamental Physicochemical Properties of Germanene-Related Materials. Elsevier. doi:10.1016/C2022-0-01741-4. ISBN 978-0-443-15801-8.
    69. ^ Lin, Chiun-Yan; Ho, Ching-Hong; Chung, Hsien-Ching; Wang, Lu-Yao; Chiu, Chih-Wei; Lin, Ming-Fa (January 2024). Rich Quasiparticle Properties in Layered Graphene-related Systems. World Scientific Publishing. doi:10.1142/13453. ISBN 978-981-12-7778-8.
    70. ^ Tien, Nguyen Thanh; Nguyen, Thi Dieu Hien; Dien, Vo Khuong; Hsu, Wen-Dung; Lin, Shih-Yang; Wang, Yu-Ming; Lin, Ming-Fa (January 2024). Chemical Modifications of Graphene-Like Materials. World Scientific Publishing. doi:10.1142/13188. ISBN 978-981-12-6793-2.
    71. ^ Lin, Chiun-Yan; Wu, Jhao-Ying; Ou, Yih-Jon; Chiu, Yu-Huang; Lin, Ming-Fa (2015). "Magneto-electronic properties of multilayer graphenes". Physical Chemistry Chemical Physics. 17 (39): 26008–26035. Bibcode:2015PCCP...1726008L. doi:10.1039/C5CP05013H. PMID 26388455.
    • Personal profile of Prof. Ming-Fa Lin, Research NCKU Archived 2024-04-17 at the Wayback Machine
    • Ming-Fa Lin's publications indexed by the Scopus bibliographic database. (subscription required)
    • Ming-Fa Lin publications indexed by Google Scholar
    • "2022臻於卓閱:校慶主題書展 國立成功大學物理系 林明發老師" on YouTube Archived 2024-04-17 at the Wayback Machine
    • "2021卓「閱」專書展:4/23世界閱讀日系列活動 - 國立成功大學物理系 林明發老師" on YouTube Archived 2024-04-17 at the Wayback Machine
    • "2020卓「閱」專書展:4/23世界閱讀日系列活動 - 國立成功大學物理系 林明發老師" on YouTube Archived 2024-06-06 at the Wayback Machine
    • "卓「閱」專書展:4/23世界閱讀日系列活動 - 國立成功大學物理學系 林明發老師" on YouTube Archived 2024-04-17 at the Wayback Machine