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Electrochemistry-related papers

  1. Y. -M. Wu, and L. -C. Chen, Eliminating the Memory Effect of a PEDOT Solid-Contact Ion-Selective Electrode Caused by Galvanostatic Polarization, in IEEE Sensors Journal, vol. 25, no. 2, pp. 2194-2202​

  2. Y.-M. Wu, and L.-C. Chen* (2024). Eliminating the memory effect of a PEDOT solid-contact ion-selective electrode caused by galvanostatic polarization. IEEE Sens. J., Early Access.

  3. W.-L. Shih, and L.-C. Chen* (2024). Voltammetric detection of chlorogenic acid by Poly(3,4-ethylene dioxythiophene) electrodes. J. Electroanal. Chem., 974, 118736. 

  4. Y.-M. Wu,  S.-Y. Liu, B.-Y. Shi, J-Y. Peng,  Z.-K. Kao, H.-Y. Chung, C.-Y. Lin, W. Fang, and L.-C. Chen* (2024). Field study correlating nutrient absorption and transpiration in lettuce hydroponics using an IoT-interfaced solid-state ion sensor array. IEEE Sens. Lett., 8, 2000504.

  5. Y.-M. Wu, S.-Y. Liu, B.-Y. Shi, J.-Y. Peng, Z.-W. Kao, Y.-Y. Chen, L.-C. Chen, (2023). IoT-interfaced solid-contact ion-selective electrodes for cyber-monitoring of element-specific nutrient information in hydroponics. Computers and Electronics in Agriculture, 214, 108266.

  6. ​S.-F. Huang, W.-L. Shih, Y.-Y. Chen, Y.-M. Wu, & L.-C. Chen*(2021). Ion composition profiling and pattern recognition of vegetable sap using a solid-contact ion-selective electrode array. Biosensors and Bioelectronics: X, 9, 100088.

  7. Chih-Yu Lai, Wei-Chen Huang, Jui-Hong Weng, Lin-Chi Chen, Chia-Fu Chou, Pei-Kuen Wei (2020). Impedimetric aptasensing using a symmetric Randles circuit model. Electrochimica Acta, 337, 135750.

  8. Chih-Yu Lai, Jui-Hong Weng, Wei-Li Shih, Lin-Chi Chen*, Chia-Fu Chou and Pei-Kuen Wei (2019). Diffusion impedance modeling for interdigitated array electrodes by conformal mapping and cylindrical finite length approximation. Electrochimica Acta, 320, 134629.

  9. H.-Y. Liao, T.-C. Liao, W.-H. Chen, C.-H. Chang, and L.-C. Chen* (2016). Molybdate hexacyano- ferrate (MoOHCF) thin film: A brownish red Prussian blue analog for electrochromic window application, Sol. Energ. Mat. Sol. Cells., 145, 8-15 .

  10. T.-C. Liao, W.-H. Chen, H.-Y. Liao, and L.-C. Chen* (2016). Multicolor electrochromic thin films and devices based on the Prussian blue family nanoparticles,” Sol. Energ. Mat. Sol. Cells., 145, 26-34.

  11. C.-C. Chen and L.-C. Chen* (2015). Synthesis and characterization of Pd-Ni core-shell nano-catalysts for alkaline glucose electrooxidation,” RSC Adv. 5 , 53333-53339.

  12. C.-C. Chen, C.-L. Lin, and L.-C. Chen* (2015). A binary palladium-bismuth nanocatalyst with high activity and stability for alkaline glucose electrooxidation, J. Power Sources, 287, 323-333.

  13. C.-C. Chen, C.-L. Lin, and L.-C. Chen* (2015). “Functionalized carbon nanomaterial supported palladium nano-catalysts for electrocatalytic glucose oxidation reaction,” Electrochim 152, 408-416

  14. J.-Y. Wang, Chou, T.-C. Chou, L.-C. Chen*, K.-C. Ho* (2015). Using poly(3-aminophenylboronic acid) thin film with binding-induced ion flux blocking for amperometric detection of hemoglobin A1c,” Biosens. Bioelectron. 63, 317-324 (2015).

  15. Chen, Lin-Chi & Huang, YH & Tseng, KS & Ho, KC. (2002). Novel electrochromic batteries: I. A PB-WO3 cell with a theoretical voltage of 1.35V. Journal of New Materials for Electrochemical Systems. 5. 203-212. 

  16. Chen, Lin-Chi & Tseng, K.-S & Huang, Y.-H & Ho, K.-C. (2002). Novel electrochromic batteries: II. An InHCF-WO3 cell with a high visual contrast. Journal of New Materials for Electrochemical Systems. 5. 213-221. 

Aptamer-related papers

  1. Weng, J.-H., and L.-C. Chen*, “Confocal epifluorescence sensor with an arc-shaped aperture for slide-based PCR quantification,” Biosensors and Bioelectronics 100, 71-78 (2018). 

  2. Yang, D.-K., Chou, C.-F., Chen, L.-C., "Selection of aptamers for AMACR detection from DNA libraries with different primers", RSC Adv. 8, Issue 34, 19067-19074 (2018).

  3. Jolly, P.,  Miodek, A., Yang, D.-K., Chen, L.-C., Lloyd, M.D., Estrela, P., “Electro-Engineered Polymeric Films for the Development of Sensitive Aptasensors for Prostate Cancer Marker Detection”, ACS Sensors 1, Issue 11, 1308-1314 (2016).

  4. Xu, C.-H., Shen, P.-Y., Chiu, Y.-F., Yeh, P.-W., Chen, C.-C., Chen, L.-C., Hsu, C.-C., Cheng, I.-C.,  Chen, J.-Z., "Atmospheric pressure plasma jet processed nanoporous Fe2O3/CNT composites for supercapacitor application", Journal of Alloys and Compounds 676, 469-473 (2016).

  5. Y.-H. Lao, C.-W. Chi. S. M. Friedrich, K. Peck, T.-H. Wang, K. W. Leong*, and L.-C. Chen*, “Signal-on protein detection via dye translocation between aptamer and quantum dot,” ACS Appl. Mater. Interfaces 8, 12048–12055 (2016).

  6. S.-J. Wang, Y.-T. Hou, and L.-C. Chen*, “A selective decoy-doxorubicin complex for targeted co-delivery, STAT3 probing and synergistic anti-cancer effect,” Chem. Commun.51, 13309- 13312 (2015).

  7. D.-K. Yang, C.-J. Kuo, and L.-C. Chen*, “Synthetic multivalent DNAzymes for enhanced hydrogen peroxide catalysis and sensitive colorimetric glucose detection,” Anal. Chim. Acta. 856, 96-102 (2015).

  8. D.-K. Yang, L.-C. Chen*, M.-Y. Lee, C.-H. Hsu, and C.-S. Chen, “Selection of aptamers for fluorescent detection of alpha-methylacyl-CoA racemase by single-bead SELEX,” Biosens. Bioelectron. 62, 106-112 (2014).

  9. Y.-H. Lao, H.-Y. Chiang, D.-K. Yang, K. Peck, and L.-C. Chen*, “Selection of aptamers targeting the sialic acid receptor of hemagglutinin by epitope-specific SELEX,” Chem. Comm. 50, 8719-8722 (2014).

  10. S.-J. Wang, C.-S. Chen, and L.-C. Chen*, “Prussian blue nanoparticles as nanocargoes for delivering DNA drugs to cancer cells,” Sci. Technol. Adv. Mat. 14, 044405 (2013).

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Department of Bio-Industrial Mechatronics Engineering, National Taiwan University, Taipei 10617, Taiwan (ROC) 

Last Updated : 2023/12
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