五、研究方向/ Research Interests:
1. 有機、無機、催化化學反應之計算模擬及機構探討
2. 新創的化合物的設計及模擬
3. 雷射光鉗技術應用 (ex. 結晶研究、細胞操作、光譜應用)
六、期刊著作:
1. Wu, C. S., Yoshikawa, H. Y.,* & Sugiyama, T.* (2020). Bidirectional
polymorphic conversion by focused femtosecond laser irradiation. Japanese Journal of Applied Physics, 59. SIIH02 (IF=1.471)
2. Wu, C. S., Ikeyama, J., Nakabayashi, S., Sugiyama, T., &
Yoshikawa, H. Y.* (2019). Growth Promotion of Targeted Crystal Face by
Nanoprocessing via Laser Ablation. Journal
of Physical Chemistry C, 123(40),
24919-24926. (Selected
as Supplementary Cover Art). (IF=4.309)
3. Wu, C. S., Hsieh, P. Y., Yuyama, K., Masuhara, H., & Sugiyama,
T.* (2018). Pseudopolymorph Control of L-Phenylalanine Achieved by Laser
Trapping. Crystal Growth & Design, 18(9), 5417-5425. (IF=4.153)
4. Yuyama, K., Wu,
C. S., Sugiyama, T., & Masuhara, H.* (2014). Laser
trapping-induced crystallization of L-phenylalanine through its
high-concentration domain formation. Photochemical
& Photobiological Sciences, 13(2),
254-260. (IF=2.902)
5. Wu, C. S., & Su, M. D.* (2012). Reactivity for boryl(phosphino) carbenyl
carbene analogues with group 14 elements (C, Si, Ge, Sb, and Pb) as a
heteroatom: a theoretical study. Dalton
Transactions, 41(11),
3253-3265. (IF=4.052)
6. Wu, C. S., & Su, M. D.* (2012). Theoretical Investigations of
the Reactivities of Four-Membered N-Heterocyclic Carbene Analogues of the
Group 13 Elements. Journal of
computational chemistry, 33(1),
103-111. (IF=3.229)
7. Wu, C. S., & Su, M. D.* (2011). A Computational Study of the
Reactivities of Four-Membered Heavy Carbene Systems. Journal of computational chemistry, 32(9), 1896-1906. (IF=3.229)
七、研討會論文:
1. Yoshikawa, H. Y., Wu, C. S., Takahashi, H., Yamaji, M., Nakajima, M.,
Yoshimura, M., Maruyama, M., Mori, Y., Sugiyama, T., & Nakabayashi, S.
(2022). Promotion of growth of targeted crystal face via laser ablation,
Hybrid format Kunibiki Messe in Matsue, Japan & online.
2. Yoshikawa, H. Y., Takeshige, T., Kiryu, F.,
Takano, K., Wu, C. S.,
Shih, Y. H., Nakabayashi, S., Sugiyama, T., & Kawamura, R. (2019).
Fabrication of dynamic of cytoskeletal networks by focused laser beam.
Okinawa Colloids 2019, Okinawa, Japan.
3. Wu, C. S., Sugiyama, T.,
Nakabayashi, S., & Yoshikawa, H. Y. (2018). Study on the influence of
laser pulse duration in crystal growth of L-phenylalanine induced by laser
ablation. The Japanese Association for Crystal Growth-47, Sendai, Japan. (Poster award)
4. Wu C. S., Sugiyama, T.,
Nakabayashi, S., & Yoshikawa, H. Y. (2017). Spatial control of crystal
growth of L-phenylalanine by laser ablation. Autumn Meeting, The Japan
Society of Applied Physics-OSA, Fukuoka, Japan.
5. Hsieh, P. Y., Wu,
C. S., Yuyama, K., Sugiyama, T., & Masuhara, H. (2015). Laser
trapping-controlled pseudopolymorphism of L-phenylalanine in D2O Dynamics. Annual Meeting on Photochemistry,
Osaka, Japan.
6. Wu C.
S., Yuyama,
K., Sugiyama, T., & Masuhara, H. (2014). Laser trapping-induced
dehydration of L-phenylalanine leading to crystal pseudopolymorphism. Spring
Symposium of Photochemistry Association in Taiwan, Hsinchu, Taiwan.
7. Wu,
C. S., Yuyama,
K., Sugiyama, T., & Masuhara, H. (2013). Laser trapping crystallization and controlling polymorphs of
L-phenylalanine in D2O. Spring Meeting, The Japan Society of
Applied Physics, Kanagawa, Japan.
8. Sugiyama, T., Yuyama, K., Wu, C. S., & Masuhara, H. (2013).
Laser-trapping-induced nucleation and crystal growth of l-phenylalanine
through its highly concentrated domain. International Conference on Photochemistry,
Leuvan, Belgium.
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