Y.-T. Chen's Group

Nanoscale Materials and Bioanalytical Chemistry Laboratory
奈米材料與生化分析實驗室

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SignificantElevationinPotassiumConcentrationSurrounding StimulatedExcitableCellsRevealedbyanAptamer-Modified NanowireTransistor

Citation:
A.Ankur, H. - C. Tseng, H. - C. Chiang, W. - H. Hsu, Y. - F. Liao, S. H. - A. Lu, S. - Y. Tsai, C. - Y. Pan, and Y. - T. Chen. "SignificantElevationinPotassiumConcentrationSurrounding StimulatedExcitableCellsRevealedbyanAptamer-Modified NanowireTransistor." ACS Appl. Bio. Mater. 4 (2021): 6865−6873.
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Recent Publications

  • An Ultra-Sensitive Nanowire-Transistor Biosensor for Detecting Dopamine Release from Living PC12 Cells under Hypoxic Stimulation
  • Biomolecular recognition with a sensitivity-enhanced nanowire transistor biosensor
  • Chemical-vapor-deposition synthesis and raman spectroscopic characterization of large-area graphene sheets
  • Biologically Inspired Graphene-Chlorophyll Phototransistors with High Gain
  • Patterned growth of nanocrystalline silicon thin films through magnesiothermic reduction of soda lime glass
  • Nanowire transistor-based ultrasensitive virus detection with reversible surface functionalization
  • Changes in plasma membrane surface potentials of PC12 cells as measured by Kelvin probe force microscopy
  • Monitoring extracellular K+ flux with a valinomycin-coated silicon nanowire field-effect transistor
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