專任教師

游聲盛 (Sheng-Sheng Yu) 副教授

聯絡方式:

研究室:93B16
分機號碼:(06)-2757575轉62628
E-mail:ssyu@mail.ncku.edu.tw
個人網頁:http://shengshengyu.wixsite.com/shengshengyu
研究專長:
高分子反應工程、綠色化學、生物高分子材料、積層製造工程
NCKU Research: https://researchoutput.ncku.edu.tw/en/persons/sheng-sheng-yu

個人CV :

學歷

  • 美國喬治亞理工學院 化學及生化工程學系 博士 2012/08–2017/05
  • 國立清華大學 化學工程學系 學士 2007/09–2011/06

經歷

  • ​副主任, 成大智慧半導體及永續製造學院, 智能與永續製造學位學程 2021/08–迄今

  • 業務推廣組組長,成大核心設施中心 2021/02–迄今

  • 美國加州大學柏克萊分校 博士後研究員 2017/06–2018/05

開授課程

110 Fall

  • CHE 3337, 文獻選讀與報告

108 Spring

  • CHE 2007, 物理化學(二)

107 Spring

  • CHE 7096, 生物高分子之基礎特性與工程應用

107 Fall

  • CHE 7075, 化學工程 (I)

教師著作

 

17. Lai, P.-C. (賴柏丞); Ren, Z.-F. (任之凡); Yu, S.-S.,* Thermally Induced Gelation of Cellulose Nanocrystals in Deep Eutectic Solvents for 3D Printable and Self-healable Ionogels. ACS Applied Polymer Materials, 2022, 4 (12), 9221-9230. Highlighted on Supplementary Cover (IF: 4.855. Rank: 19/90=21.11, Polymer Science)

16. Yu, C.-H.; Tseng, B.-Y.; Yang, Z.; Tung, C.-C.; Zhao, E.; Ren, Z.-F. (任之凡); Yu, S.-S.; Chen, P.-Y.; Chen, C.-S.; Buehler, M. J., Hierarchical Multiresolution Design of Bioinspired Structural Composites Using Progressive Reinforcement Learning. Advanced Theory and Simulations, 2022, 5 (11), 2200459. (IF: 4.105. Rank: 23/74=31.08, Multidisciplinary Sciences)

15. Pal, S.; Su, Y.-T (蘇酉澤); Kung, C.-W.*; Yu, S.-S.,* 3D Printing of Metal–Organic Framework-based Ionogels: Wearable Sensors with Colorimetric and Mechanical Responses. ACS Applied Materials & Interfaces 2022, 14 (24), 28247-28257. Highlighted on Supplementary Cover (IF: 10.383 Rank: 49/345=14.20, Materials Science, Multidisciplinary)

14. Pal, S.; Yu, S.-S.*; Kung, C.-W.,* Group 4 Metal-based Metal—Organic Frameworks for Chemical Sensors. Chemosensors 2021, 9 (11), 306. (IF: 3.398. Rank: 30/87=34.48, Chemistry, Analytical)

13. Lo, T. -H. (羅子軒); Yu, S.-S.* 3D Printable and Sub-micrometer Porous Polymeric Monoliths with Shape Reconfiguration Ability by Miniemulsion Templating. Macromolecular Materials and Engineering 2022, 307 (1) 202100615. (IF: 4.367. Rank: 17/90=18.89% Polymer Science)

12. Tsai, Y.-T. (蔡宜庭); Huang, C.-W. (黃琮偉); Yu, S.-S.,* The Effect of Temperature on the Kinetics of Enhanced Amide Bond Formation from Lactic Acid and Valine Driven by Deep Eutectic Solvents. Physical Chemistry Chemical Physics 2021, 23 (48), 27498-27507. (IF: 3.676. Rank: 77/162=47.53%, Chemistry, Physical)

11. Feng, C. (馮喬); Yu, S.-S.,* 3D Printing of Thermal Insulating Polyimide/Cellulose Nanocrystal Composite Aerogels with Low Dimensional Shrinkage. Polymers 2021, 13 (21), 3614. (IF: 4.329. Rank: 18/90=20.00% Polymer Science)

10. Li, C. -Y. (李佳玗); Yu, S.-S.,* Efficient Visible-Light-Driven RAFT Polymerization Mediated by Deep Eutectic Solvents under an Open-to-Air Environment. Macromolecules 2021, 54 (21), 9825-9836. (IF: 5.985. Rank: 8/90=8.89% Polymer Science)

9. Lai, P.-C. (賴柏丞); Yu, S.-S.,* Cationic Cellulose Nanocrystals-based Nanocomposite Hydrogels: Achieving 3D Printable Capacitive Sensors with High Transparency and Mechanical Strength. Polymers 2021, 13 (5), 688. (IF: 3.426. Rank: 16/89=17.97% Polymer Science)

8. Chien, C.-Y. (簡禎佑); Yu, S.-S.,* Ester-mediated Peptide Formation Promoted by Deep Eutectic Solvents: A Facile Pathway to Proto-Peptides. Chemical Communications 2020, 56 (80), 11949-11952. Featured on Back Cover. (IF: 5.996. Rank: 34/177=19.21%, Chemistry, Multidisciplinary)

7. Lai, C.-W. (賴俊維); Yu, S.-S.,* 3D Printable Strain Sensors from Deep Eutectic Solvents and Cellulose Nanocrystals. ACS Applied Materials & Interfaces 2020, 12 (30), 34235-34244. (IF: 8.758. Rank: 33/314=10.51%, Materials Science, Multidisciplinary)

6. Yu, S.-S.; Solano, M. D.; Blanchard M. K.; Soper-Hopper, M. T.; Krishnamurthy, R.; Fernández, F. M.; Hud, N. V.; Schork, F. J.; Grover, M. A., Elongation of Model Prebiotic Proto-Peptides by Continuous Monomer Feeding. Macromolecules 2017, 50 (23), 9286-9294.

5. Soper-Hopper, M. T.; Petrov, A. S.; Howard, J. N.; Yu, S.-S.; Forsythe, J. G.; Grover, M. A.; Fernández, F. M., Collision Cross Section Predictions Using 2-Dimensional Molecular Descriptors. Chemical Communications 2017, 53 (54), 7624-7627.

4. Forsythe, J. G.; Petrov, A. S.; Millar, W. C.; Yu, S.-S.; Krishnamurthy, R.; Grover, M. A.; Hud, N. V.; Fernández, F. M., Surveying the Sequence Diversity of Model Prebiotic Peptides by Mass Spectrometry. Proceedings of the National Academy of Sciences 2017, 114 (37), E7656-E7659.

3. Yu, S.-S.; Krishnamurthy, R.; Fernández, F. M.; Hud, N. V.; Schork, F. J.; Grover, M. A., Kinetics of Prebiotic Depsipeptide Formation from the Ester-Amide Exchange Reaction. Physical Chemistry Chemical Physics 2016, 18 (41), 28441-28450.

2. Forsythe, J. G. +; Yu, S.-S. +; Mamajanov, I.; Grover, M. A.; Krishnamurthy, R.; Fernández, F. M.; Hud, N. V., Ester-Mediated Amide Bond Formation Driven by Wet–Dry Cycles: A Possible Path to Polypeptides on the Prebiotic Earth. Angewandte Chemie International Edition 2015, 54 (34), 9871-9875. (co-first authors)

1. Grover, M.; He, C.; Hsieh, M.-C.; Yu, S.-S., A Chemical Engineering Perspective on the Origins of Life. Processes 2015, 3 (2), 309-338.

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