Journal of Physical Chemistry, USA國際諮詢委員(2007-2009)
原分所特聘研究員(2011-迄今)
中央研究院應用科學研究中心學術諮詢委員(2013-2016)
國科會「卓越領航計畫計畫」主持人(2013-2017)
科技部「奈米科技前瞻應用主軸計畫」共同召集人(2014-2017)
科技部「學術攻頂研究計畫」主持人(2017-2022)
中央研究院「材料與分析科技探索計畫」總召集人(2017-迄今)
國科會「卓越領航計畫計畫」主持人(2022-迄今)
研究興趣
表面物理與化學
奈米結構製造與分析
拉曼光譜學
榮譽及獎項
民國81年,國科會優等獎
民國91年,第一屆有庠科技論文獎(奈米科技)
民國94年至99年,傑出人才獎座
民國98年,第七屆有庠科技講座(奈米科技)
民國98年,行政院傑出科技貢獻獎
民國99年,第六屆奈米產業科技菁英獎
民國99年,中華民國物理學會會士
民國100年,美國物理學會會士
民國103年, 科技部傑出研究獎
民國106年,教育部學術獎
民國107年,中華民國化學會化學學術獎章
代表作
“Scanning Ion Microscopy: Elemental Maps at High Lateral Resolution”, R. Levi-Setti, Y. L. Wang, and G. Crow, Invited paper, Pittsburgh Conf. on Analytical Chemistry and Applied Spectroscopy, February 1985, Appl. Surf. Sci.26, 249-264 (1986).
“Imaging SIMS at 20 nm Lateral Resolution: Exploratory Research Applications”, R. Levi-Setti, G. Crow, and Y. L. Wang, Keynote paper, SIMS-V, Washington, D. C., September 1985, Secondary Ion Mass Spectrometry SIMS V, A. Benninghoven, R. J. Colton, D. S. Simons, and H. W. Werner, Eds., (Springer, Berlin 1986), 132-138.
“Role of Native Oxide Layers in the Patterning of InP Using Focused Ion Beam and Ion Assisted Cl2 Etching”, Y. L. Wang, L. R. Harriott, R. A. Hamm, and H. Temkin, Appl. Phys. Lett.56, 749-751 (1990).
“Semiconductor Lasers Fabricated by Selective Area Epitaxy”, Y. L. Wang, H. Temkin, R. A. Hamm, R. D. Yadvish, D. Ritter, L. H. Harriott, and M. B. Panish, Electronic Letters27, 1324-1326 (1991).
“Design Principles of an Optimized Focused Ion Beam System”, Y. L. Wang and Z. Shao, a chapter in "Advances in Electronics and Electron Physics," P. W. Hawkes Ed., Vol. 81, 177-210 (Academic Press, Boston, 1991).
“Direct Observation of Two Dimensional Magic Clusters”, M. Y. Lai and Y. L. Wang, Phys. Rev. Lett.81, 164-167 (1998).
“Growth of Ga-Induced Nanostructures on Si(111): from Magic Clusters to Inconmmensurate Structure”, M. Y. Lai and Y. L. Wang, Phys. Rev. B 60, 1764-1770 (1999).
“Ordered Anodic Alumina Nano-channels on Focused-Ion-beamPrepatterned Aluminum Surfaces”, C. Y. Liu, A. Datta, and Y. L. Wang, App. Phys. Lett. 78, 120-122 (2001).
“Self-Organized Two-Dimensional Lattice of Magic Clusters”, M. Y. Lai and Y. L. Wang, Phys. Rev. B64, 241404(R)-241404-4 (2001).
“Structure Determination of Surface Magic-Clusters”, H. H. Chang,M. Y. Lai, J. H. Wei, C. M. Wei, and Y. L. Wang, Phys. Rev. Lett.92, 066103 (2004).
“Fabrication of Anodic Alumina Film with Custom-Designed Arrays of Nanochannels”, N. W. Liu, A. Datta, C. Y. Liu, C. Y. Peng, H. H. Wang, and Y. L. Wang, Advanced Materials17, 222 (2005).
“Highly Raman Enhancing Substrates Made of Ag-Nanoparticle Array with Tunable Sub-10 nm Gaps”, Huai-Hsien Wang, Chih-Yu Liu, Shr-Bin Wu, Nai-Wei Liu, Cheng-Yi. Peng, Tsu-Hsin Chan, Chen-Feng Hsu, Juen-Kai Wang, and Yuh-Lin Wang, Advanced Materials 18, 491-495 (2006).
“Random and ordered arrays of surface magic clusters”, Y. L. Wang, A. A. Saranin, A. V. Zotov, M. Y. Lai, and H. H. Chang (Invited Review), International Reviews in Physical Chemistry27, 317-360 (2008).
“A High Speed Detection Platform Based on Surface-Enhanced Raman Scattering for Monitoring Antibiotic-Induced Chemical Changes in Bacteria Cell Wall”, Ting-Ting Liu, You-Hsuan Lin, Chia-Sui Hung, Tian-Jiun Liu, Yu Chen, Yung-Ching Huang, Tsung-Heng Tsai, Huai-Hsien Wang, Da-Wei Wang, Juen-Kai Wang, Yuh-Lin Wang, Chi-Hung Lin, PLoS ONE4(5), e5470 (2009).
“Broken Even/Odd Symmetry in Self-Selection of Distances between Nanoclusters due to Presence/Absence of Topological Solitons”, M. Y. Lai, J. P. Chou,O. A. Utas, N. V. Denisov, V. G. Kotlyar,D. Gruznev, A. Matetsky, A. V. Zotov, A. A. Saranin, C. M. Wei, Y. L. Wang, Phys. Rev. Lett.106, 166101 (2011).
“Funtionalized arrays of Raman-enhancing nanoparticles for capture and culture-free analysis of bacteria in human blood”, T. Y. Liu, K. T. Tsai, H. H. Wang, Y. Chen, Y. S. Chen, Y. C. Chao, H. H. Chang, C. H. Lin, J. K. Wang, Y. L. Wang, Nat. Commun.2, 538 (2011).
“Looking into Meta-Atoms of Plasmonic Nanowire Metamaterial”,Kun-Tong Tsai, Gregory A. Wurtz, Jen-You Chu, Tian-You Cheng, Huai-Hsien Wang, Alexey V. Krasavin, Jr-Hau He, Brian M. Wells, Viktor A. Podolskiy, Juen-Kai Wang, Yuh-Lin Wang, and Anatoly V. Zayats, Nano Lett.14, 4971 (2014).
“FePt Nanodendrites with High-Index Facets as Active Electrocatalysts for Oxygen Reduction Reaction”, D. Y. Wang, H. L. Chou, C. C. Cheng, Y. H. Wu, C. M. Tsai, H. Y. Lin, Y. L. Wang, B. J. Hwang, and C. C. Chen, Nano Energy11, 631 (2015).
“Highly Active and Stable Hybrid Catalyst of Cobalt-Doped FeS2 Nanosheets−Carbon Nanotubes for Hydrogen Evolution Reaction”, D. Y. Wang, M. Gong, H. L. Chou, C. J. Pan, H. A. Chen, Y. Wu, M. C. Lin, M. Guan, J. Yang, C. W. Chen, Y. L. Wang, B. J. Hwang, C. C. Chen, and H. Dai, J. Am. Chem. Soc.137, 1587 (2015).
“Quantification of biomolecules responsible for biomarkers in the surface-enhanced Raman spectra of bacteria using liquid chromatography-mass spectrometry”, Shirley W. Y. Chiu, H. W. Cheng, Z. X. Chen, H. H. Wang, M. Y. Lai, J. K. Wang and Y. L. Wang, Phys. Chem. Chem. Phys.20, 8032 (2018).
“Antibiotic Susceptibility Test with Surface-Enhanced Raman Scattering in a Microfluidic System”, K. W. Chang, H. W. Cheng, Jessie Shiue, J. K. Wang, Y. L. Wang, and N. T. Huang, Anal. Chem.91, 10988 (2019).
“Rapid antibiotic susceptibility testing of bacteria from patients' blood via assaying bacterial metabolic response with surface-enhanced Raman spectroscopy”, Y. Y. Han, Y. C. Lin, W. C. Cheng, Y. T. Lin, L. J. Teng, J. K. Wang, and Y. L. Wang, Scientific Reports, 10:12538 (2020).
“Bacteria encapsulation and rapid antibiotic susceptibility test using a microfluidic microwell device integrating surface-enhanced Raman scattering”, H. K. Huang, H. W. Cheng, C. C. Liao, S. J. Lin, Y. Z. Chen, J. K. Wang, Y. L. Wang, and N. T. Huang, Lab on Chip,20, 2520 (2020).
“Sensible Functional Linear Discriminant Analysis Effectively Discriminates Enhanced Raman Spectra of Mycobacterium Species”, W. C. Cheng, L. H. Chen, C. R. Jiang, Y. M. Deng, D. W. Wang, C. H. Lin, R. W. Jou, J. K. Wang, and Y. L. Wang, Analytical Chemistry93, 2785 (2021).
“Atomically-resolved interlayer charge ordering and its interplay with superconductivity in YBa2Cu3O6.81”, C. C. Hsu, B. C. Huang, Michael Schnedler, M. Y. Lai, Y. L. Wang, Rafal E. Dunin-Borkowski, C. S. Chang, T. K. Lee, Philipp Ebert and Y. P. Chiu, Nat. Comm.12, 3839 (2021).
“SERS‑based rapid susceptibility testing of commonly administered antibiotics on clinically important bacteria species directly from blood culture of bacteremia patients”, Y. Y. Han, J. T. Wang, W. C. Cheng, K. L. Chen, Y. Chi, L. J. Teng, J. K. Wang, and Y. L. Wang, World Journal of Microbiology and Biotechnology39, 282 (2023).