CHIH-YI LIU Assistant Research Fellow

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CHIH-YI LIU

Assistant Research Fellow

Department of Electronic Engineering

Education: Ph. D., Department of Physics,National Taiwan University,Taipei, Taiwan (2001)

02-2908-9899 Ext.7005

liu.chihyi@mail.mcut.edu.tw

Academic journal

Dr. Liu Chih-Yi is currently a postdoctoral researcher at the Organic Electronics Research Center at Ming Chi University of Technology. His primary research focus is on the fabrication of porous templates, particularly anodized aluminum oxide membranes, for the growth of various nanocomposites. These nanocomposites have applications in optics, plasmonics, Raman scattering, biological and gas sensing, and other fields. Additionally, Dr. Liu is interested in developing substrates for surface-enhanced Raman scattering (SERS). With over 40 articles published in international journals, Dr. Liu has established a strong research record. For more information on the core facilities provided by the Organic Electronics Research Center, please refer to its website:https://organicelectronics.mcut.edu.tw/


Research Interests:

  • Development of Customized Anodized Aluminum Oxide Nanotemplates
  • Preparation of Various Nanostructured Composite Materials for Electro-Optical Sensing
  • Development of Substrates for Surface-Enhanced Raman Scattering (SERS)
  • Development of Gas Sensors

 

Publications: 

  1. C. Y. Liu* and S. Biring*, “Nanoplatform based on ideally ordered arrays of short straight and long beer bottle-shaped nanochannels,” Microporous Mesoporous Mater., Vol. 287, pp. 71 (2019); IF: 5.876, Ranking factor: 15/73 (79.44%), Chemistry, Applied.
  2. C. Y. Liu and Y. L. Wang*, “Creating anodic alumina nanochannel-arrays with custom-made geometry,” J. Chin. Chem. Soc., Vol. 67, pp. 11 (2020); IF: 1.753, Ranking factor: 135/179 (24.58%), Chemistry, Multidisciplinary.
  3. C. Y. Liu, A. S. Sadhu, R. Karmakar, C. S. Chu, Y. N. Lin, S. H. Chang, G. K. Dalapati, S. Biring*, “Strongly improving the sensitivity of phosphorescence-based optical oxygen sensors by exploiting nano-porous substrates,” Biosensors, Vol. 12, pp. 774 (2022); IF: 5.743, Ranking factor: 8/64 (87.50%), Instruments & Instrumentation.
  4. C. Y. Liu, R. Ram, R. B. Kolaru, A. S. Jana, A. S. Sadhu, C. S. Chu, Y. N. Lin, B. N. Pal, S. H. Chang, S. Biring*, “Ingenious fabrication of Ag-filled porous anodic alumina films as powerful SERS substrates for efficient detection of biological and organic molecules,” Biosensors, Vol. 12, pp. 807 (2022); IF: 5.743, Ranking factor: 8/64 (87.50%), Instruments & Instrumentation.
  5. C. Y. Liu, R. Ram, R. B. Kolaru, S. H. Chang, S. Chakrabortty, Y. N. Lin, C. S. Chu, S. Biring*, “Developing highly reliable SERS substrates based on Ag grown on alumina nanomeshes anodized under 1 V for efficiently sensing Raman-active molecules,” Sens. Actuators B Chem. Vol. 386, Art. No. 133739 (2023); IF: 9.221, Ranking factor: 8/64 (96.88%), Instruments & Instrumentation.