| 65. G. R. Deivendran, S. H. Wu, Y. S. Wu, J. K. Chang, R. Jose, K. H. Ng, M. Poddar, C. L. Sun, C. C. Yang*, "Suppression of Polysulfides by Carbonized Polyacrylonitrile Modified Polypropylene Janus Separator for Li2S/r-GONR/CNT-Based Li−S Batteries," ACS Appl. Energy Mater. (in press) (2024). |
 |
| 64. C. L. Sun*, H. Y. Chen, M. Poddar, Y. J. Lu*, "Decoupling photonic and thermal contributions for photoelectrochemical sensing of melatonin via graphene oxide nanoribbons," Electrochem. Common. 159, 107649 (2024). |
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| 63. C. L. Sun*, Y. C. Chen, C. H. Lin, H. Y. Chen, "Synthesis of size-selected Pt/GONR nanocomposites for visible-light-enhanced methanol oxidation reaction in an alkaline solution," MRS Energy Sustain. 9, 378 (2022). |
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| 62. W. H. Lin, S. F. Liu, S. Gull, T. C. Su, K. J. Tsai, C. H. Kuo, C. C. Lin, C. C. Wang, M. H. Lin*. C. L. Sun*, H. Y. Chen*, "Nanoporous core–shell–structured multi-wall carbon nanotube/graphene oxide nanoribbons as cathodes and protection layer for aqueous zinc-ion capacitors: Mechanism study of zinc dendrite suppression by in-situ transmission X-ray microscopy," J. Power Sources 541, 231627 (2022). |
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| 61. C. L. Sun*, S. Y. Lai, K. J. Tsai, J. Wang, J. Zhou, H. Y. Chen*, "Application of nanoporous core–shell structured multi-walled carbon nanotube–graphene oxide nanoribbons in electrochemical biosensors," Microchem. J. 179, 107586 (2022). |
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| 60. C. L. Sun*, C. H. Lin, C. H. Kuo, C. W. Huang, D. D. Nguyen, T. C. Chou, C. Y. Chen, Y. J. Lu*, "Visible-light-assisted photoelectrochemical biosensing of uric acid using metal-free graphene oxide nanoribbons," Nanomaterials 11 (10), 2693 (2021). |
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| 59. Y. C. Liu, Y. H. Hung, S. F. Liu, C. H. Guo, T. Y. Liu*, C. L. Sun*, H. Y. Chen*, "Core–shell structured multiwall carbon nanotube–graphene oxide nanoribbon and its N-doped variant as anodes for high-power microbial fuel cells," Sustain. Energ. Fuels 4, 5339 (2020). |
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| 58. H. Y. Chou, H. M. D. Wang*, C. H. Kuo, P. H. Lu, L. Wang, W. Kang, C. L. Sun*, "Antioxidant graphene oxide nanoribbon as a novel whiting agent inhibits microphthalmia-associated transcription factor related melanogenesis mechanism," ACS Omega 5, 6588 (2020). |
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| 57. C. H. Su, C. L. Sun*, S. Y. Peng, J. J. Wu, Y. H. Huang, Y. C. Liao*, "High performance non-enzymatic graphene-based glucose fuel cell operated under moderate temperatures and a neutral solution," J. Taiwan Inst. Chem. Eng. 95, 48 (2019). |
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| 56. W. H. Huang, C. H. Lin, B. S. Lin, C. L. Sun*, "Low-Temperature CVD Graphene Nanostructures on Cu and Their Corrosion Properties," Materials 11, 1989 (2018). |
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| 55. R. Zhang, C. Zhang, F. Zheng, X. Li, C. L. Sun, W. Chen*, "Nitrogen and sulfur co-doped graphene nanoribbons: A novel metal-free catalyst for high performance electrochemical detection of 2, 4, 6-trinitrotoluene (TNT)," Carbon 126, 328 (2018). |
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| 54. T. E. Lin, Y. J. Lu, C. L. Sun, H. Pick, J. P. Chen, A. Lesch*, H. H. Girault*, "Weiche elektrochemische Sonden zum Abbilden der Verteilung von Biomarkern und injizierten Nanomaterialien in tierischem und menschlichem Gewebe," Angew. Chem. 129 (52), 16722 (2017). |
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| 53. T. E. Lin, Y. J. Lu, C. L. Sun, H. Pick, J. P. Chen, A. Lesch*, H. H. Girault*, "Soft Electrochemical Probes for Mapping the Distribution of Biomarkers and Injected Nanomaterials in Animal and Human Tissues," Angew. Chem. Int. Ed. 56 (52), 16498 (2017). |
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| 52. C. H. Su, C. L. Sun, Y. C. Liao*, "Printed Combinatorial Sensors for Simultaneous Detection of Ascorbic Acid, Uric Acid, Dopamine, and Nitrite," ACS Omega 2 (8), 4245 (2017). |
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| 51. H. Y. Chen, N. Bucher, S. Hartung, L. Li, J. Friedl, H. P. Liou, C. L. Sun, U. Stimming*, M. Srinivasan*, "A Multi-Walled Carbon Nanotube Core with Graphene Oxide Nanoribbon Shell as Anode Material for Sodium Ion Batteries," Adv. Mater. Interfaces 1600357 (2016). |
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| 50. Y. W. Lan*, C. M. Torres, X. Zhu, C. L. Sun, S. Zhu, C. D. Chen*, K. L. Wang, “Self-aligned Graphene Oxide Nanoribbon Stack with Gradient Bandgap for Visible-light Photodetection,” Nano Energy 27, 114 (2016). |
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| 49. E. A. Monyoncho, S. Ntais, N. Brazeau, J. J. Wu, C. L. Sun, E. A. Baranova*, “Role of the Metal-Oxide Support in the Catalytic Activity of Pd Nanoparticles for Ethanol Electrooxidation in Alkaline Media,” ChemElectroChem 3 (2), 218 (2016). |
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| 48. R. Zhang, C. L. Sun, Y. J. Lu, W. Chen*, “Graphene Nanoribbons-Supported PtPd Concave Nanocubes for Electrochemical Detection of TNT with High Sensitivity and Selectivity,” Anal. Chem. 87, 12262 (2015). |
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| 47. C. L. Sun*, J. S. Su, S. Y. Lai, Y. J. Lu, “Size Effects of Pt Nanoparticle/Graphene Composite Materials on the Electrochemical Sensing of Hydrogen Peroxide,” J. Nanomat. Article ID 861061 (2015). |
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| 46. X. Lu, H. Chan, C. L. Sun, C. M. Tseng, C. Zhao*, “Interconnected Core-Shell Carbon Nanotube/Graphene Nanoribbon Scaffolds for Anchorng Cobalt Oxides as Bifunctional Electrocatalysts for Oxygen Evolution and Reduction,” J. Mater. Chem. A 3, 13371 (2015). |
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| 45. C. L. Sun*, J. S. Tang, N. Brazeau, J. J. Wu, S. Ntais, C. W. Yin, H. L. Chou, E. A. Baranova, “Particle size effects of sulfonated graphene supported Pt nanoparticles on ethanol electrooxidation,” Electrochim. Acta 162, 282 (2015). |
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| 44. C. W. Lin, K. C. Wei, S. S. Liao, C. Y. Huang, C. L. Sun, P. J. Wu, Y. J. Lu, H. W. Yang*, C. C. M. Ma*, “A reusable magnetic graphene oxide-modified biosensor for vascular endothelial growth factor detection in cancer diagnosis,” Biosens. Bioelectron. 67, 431 (2015). |
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| 43. N. W. Pu, G. N. Shi, Y. M. Liu, X. Sun, J. K. Chang, C. L. Sun*, M. D. Ger*, C. Y. Chen, P. C. Wang, Y. Y. Peng, C. H. Wu, S. Lawes, “Graphene grown on stainless steel as a high-performance and ecofriendly anti-corrosion coating for polymer electrolyte membrane fuel cell bipolar plates,” J. Power Sources 282, 248 (2015). |
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| 42. C. L. Sun*, C. H. Su, C. C. Wu, “Synthesis of short graphene oxide nanoribbons for improved biomarker detection of Parkinson's disease,” Biosens. Bioelectron. 67, 327 (2015). |
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| 41. M. H. Yeh, L. Y. Lin, C. L. Sun*, Y. A. Leu, J. T. Tsai, C. Y. Yeh*, R. Vittal, K. C. Ho*, “Multi- walled carbon nanotube@reduced graphene oxide nanoribbon as the counter electrode for dye- sensitized solar cells,” J. Phys. Chem. C 118 (30), 16626 (2014). |
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| 40. Y. J. Lu, C. W. Lin, H. W. Yang, K. J. Lin, S. P. Wey, C. L. Sun, K. C. Wei, T. C. Yen, C. C. M. Ma, J. P. Chen*, “Biodistribution of PEGylated graphene oxide nanoribbons and their application in cancer chemo-photothermal therapy,” Carbon 74, 831 (2014). |
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| 39. M. H. Yeh, L. Y. Lin, J. S. Su, Y. A. Leu, R. Vittal, C. L. Sun*, K. C. Ho*, “Nanocomposite Graphene/Pt Electrocatalyst as the Economical Counter Electrode for Dye-Sensitized Solar Cells,” ChemElectroChem 1 (2), 416 (2014). |
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| 38. C. L. Sun*, J. S. Su, J. H. Tang, M. C. Lin, J. J. Wu, N. W. Pu, G. N. Shi, M. D. Ger, “Investigation of the adsorption of size-selected Pt colloidal nanoparticles on high-surface-area graphene powders for methanol oxidation reaction,” J. Taiwan Inst. Chem. Eng. 45, 1025 (2014). |
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| 37. J. M. Yang*, S. A. Wang, C. L. Sun, M. D. Ger, “Synthesis of size-selected Pt nanoparticles supported on sulfonated graphene with polyvinyl alcohol for methanol oxidation in alkaline solutions,” J. Power Sources. 254, 298 (2014). |
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| 36. L. Y. Lin, M. H. Yeh, J. T. Tsai, Y. H. Huang, C. L. Sun*, K. C. Ho*, “Novel core–shell heterostructure of multi–walled carbon nanotube@graphene oxide nanoribbons as the potential supercapacitor material,” J. Mater. Chem. A 1, 11237 (2013). |
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| 35. C. L. Sun*, C. W. Pao, H. M. Tsai, J. W. Chiou, S. C. Ray*, H. W. Wang, M. Hayashi, L. C. Chen, H. J. Lin, J. F. Lee, L. Chang, M. H. Tsai, K. H. Chen, W. F. Pong*, “Atomistic nucleation sites of Pt nanoparticles on N-doped carbon nanotubes,” Nanoscale 5, 6812 (2013). |
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| 34. P. C. Juan*, C. L. Sun, C. H. Liu, C. L. Lin, F. C. Mong, J. H. Huang, H. S. Chang, “Effects of Zirconium Substitution on the Electrical and Physical Properties of Metal-Ferroelectric (BiFeO3)- Insulator (HfO2)-Silicon Structures for Non-Volatile Memories,” Microelectron. Eng. 109, 142 (2013). |
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| 33. C. L. Sun*, W. C. Cheng, T. K. Hsu, C. W. Chang, J. L. Chang, J. M. Zen**, “Ultrasensitive and highly stable nonenzymatic glucose sensor by a CuO/graphene-modified screen-printed carbon electrode integrated with flow-injection analysis,” Electrochem. Commun. 30, 91 (2013). |
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| 32. D. Jana*#, C. L. Sun#, L. C. Chen*, K. H. Chen, “Effect of chemical doping of Boron and Nitrogen on the Electronic, Optical, and Electrochemical properties of Carbon Nanotubes,” Prog. Mater. Sci. 58, 565 (2013). (# These authors contributed equally to this work.) |
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| 31. J. T. H. Tsai*, W. S. Wang, S. H. Chen, C. L. Sun, “Self-aligned gate dielectric in carbon nanotube field-effect transistors by anodic oxidation of aluminium,” J. Exp. Nanosci. 8 (2), 138 (2013). |
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| 30. L. Wang, R. T. Yang*, C. L. Sun, “Graphene and other carbon sorbents for selective adsorption of thiophene from liquid fuel,” AIChE J. 59 (1), 29 (2013). |
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| 29. C. H. Wang, C. H. Wu, J. W. Wu, M. T. Lee, J. K. Chang*, M. D. Ger, C. L. Sun, “The effects of ionic liquid on the electrochemical sensing performance of graphene- and carbon nanotube-based electrodes,” Analyst 138, 576 (2013). |
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| 28. Y. W. Hsu, T. K. Hsu, C. L. Sun*, Y. T. Nien, N. W. Pu, M. D. Ger, “Synthesis of CuO/graphene nanocomposites for nonenzymatic electrochemical glucose biosensor applications,” Electrochim. Acta 82, 152 (2012). |
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| 27. C. Y. Chu, J. T. Tsai, C. L. Sun*, "Synthesis of PEDOT-modified graphene composite materials as flexible electrodes for energy storage and conversion applications," International Journal of Hydrogen Energy 37, 13880 (2012). |
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| 26.M. H. Yeh, C. L. Sun, J. S. Su, L. Y. Lin, C. P. Lee, C. Y. Chen, C. G. Wu, R. Vittal, K. C. Ho*, "A low-cost counter electrode of ITO glass coated with a graphene/Nafion composite film for use in dye-sensitized solar cells," Carbon 50, 4192 (2012). |
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| 25. C. L. Sun*, C. T. Chang, H. H. Lee, J. Zhou, J. Wang, T. K. Sham, W. F. Pong, "Microwave-Assisted Synthesis of a Core–Shell MWCNT/GONR Heterostructure for the Electrochemical Detection of Ascorbic Acid, Dopamine, and Uric Acid," ACS Nano. 5, 7788 (2011). |
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| 24. J. G. Zhou*, J. Wang*, C. L. Sun, J. M. Maley, R. Sammynaiken, T. K. Sham*, W. F. Pong, "Nano-Scale Chemical Imaging of a Single Sheet of Reduced Graphene Oxide," J. Mater. Chem. 21, 14622 (2011). |
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| 23. J. T. H. Tsai*, J. S. Chen, C. L. Sun, "Fabrication of Flat Capped Carbon Nanotubes Using an Arc-discharge Method Assisted with a Sm-Co Catalyst," J. Mater. Sci.-Mater. Electron. 22, 1387 (2011). |
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| 22. C. L. Sun*, H. H. Lee, J. M. Yang and C. C. Wu, "The Simultaneous Electrochemical Detection of Ascorbic Acid, Dopamine, and Uric Acid Using Graphene/Size-selected Pt Nanocomposites," Biosens. Bioelectron. 26, 3450 (2011). |
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| 21. P. T. Chen, C. L. Sun*, and M. Hayashi*, "First-Principle Calculations of Hydrogen Generation Due to Water Splitting on Polar GaN Surfaces," J. Phys. Chem. C 114, 18228 (2010). |
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| 20. C. L. Sun*, P. C. Juan, Y. W. Hsu, and Y. W. Liu, "Effect of Processing Temperature on Characteristics of Metal-Ferroelectric (BiFeO3)-Insulator (HfLaO)-Silicon Capacitors," Thin Solid Films 518, 7433 (2010). |
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| 19. C. L. Sun*, Y. K. Hsu, Y. G. Lin, K. H. Chen, C. Bock, B. MacDougall, X. Wu, and L. C. Chen, "Ternary PtRuNi Nanocatalysts Supported on N-doped Carbon Nanotubes: Deposition Process, Materials Characterization, and Electrochemistry," J. Electrochem. Soc. 156 (10), B1249 (2009). |
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| 18. J. Y. Hwang, A. Chatterjee, C. H. Shen, J. H. Wang, C. L. Sun, O. Chyan, C. W. Chen, K. H. Chen, and L. C. Chen*, "Mesoporous active carbon dispersed with ultra-fine platinum nanoparticles and their electrochemical properties," Diam. Relat. Mat. 18 (2-3), 303 (2009). |
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| 17. W. C. Fang, O. M. Chyan, C. L. Sun, C. T. Wu, C. P. Chen, K. H. Chen*, L. C. Chen, and J. H. Huang, "Arrayed CNx NT-RuO2 nanocomposites directly grown on Ti-buffered Si substrate for supercapacitor applications," Electrochem. Commun. 9 (2), 239 (2007). |
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| 16. C. L. Sun, H. W. Wang, M. Hayashi*, L. C. Chen, and K. H. Chen*, "Atomic-scale deformation in N-doped carbon nanotubes," J. Am. Chem. Soc. 128 (26), 8368 (2006). |
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| 15. W. C. Fang, C. L. Sun, J. H. Huang, L. C. Chen*, O. M. Chyan, K. H. Chen, and P. Papakonstantinou, "Enhanced electrochemical properties of arrayed CNx nanotubes directly grown on Ti-Buffered Si substrates," Electrochem. Solid-State Lett. 9 (3), A175 (2006). |
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| 14. W. C. Fang, J. H. Huang, C. L. Sun, P. Papakonstantinou, L. C. Chen*, and K. H. Chen, "Superior electrochemical performance of CNx nanotubes using TiSi2 buffer layer on Si substrates," J. Vac. Sci. Tech. B 24 (1), 87 (2006). |
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| 13. W. C. Fang, J. H. Huang*, L. C. Chen, Y. O. Su, K. H. Chen, and C. L. Sun, "Carbon nanotubes directly grown on Ti electrodes and enhancement in their electrochemical properties by nitric acid treatment," Electrochem. Solid-State Lett. 9 (1), A5 (2006). |
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| 12. C. L. Sun, L. C. Chen*, M. C. Su, L. S. Hong, O. Chyan, C. Y. Hsu, K. H. Chen, T. F. Chang, and L. Chang, "Ultrafine platinum nanoparticles uniformly dispersed on arrayed CNx nanotubes with high electrochemical activity," Chem. Mater. 17, 3749 (2005). |
|
| 11. C. L. Sun*, S. Y. Chen, C. C. Liao, and A. Chin, "Low voltage lead titanate/Si one-transistor ferroelectric memory with good device characteristics," Appl. Phys. Lett. 85, 4726 (2004). |
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| 10. Z. H. Lan, W. M. Wang, C. L. Sun, S. C. Shi, C. W. Hsu, T. T. Chen, K. H. Chen, C. C. Chen, Y. F. Chen, and L. C. Chen*, "Growth Mechanism, structure and IR photoluminescence studies of indium nitride nanorods," J. of Cryst. Growth 269, 87 (2004). |
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| 9. C. L. Sun and S. Y. Chen*, "Role of interface reaction at high temperature in electrical characteristics of Bi3.25La0.75Ti3O12/ Al2O3/Si capacitors," J. Electrochem. Soc. 150, C600 (2003). |
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| 8. C. L. Sun, J. J. Hsu, S. Y. Chen*, and A. Chin, "Effect of Zr/Ti ratios on characterization of Pb(ZrxTi1-x)O3 thin films on Al2O3 buffered Si for one-transistor memory applications," J. Electrochem. Soc. 150, G187 (2003). |
|
| 7. C. L. Sun, H. W. Wang, M. C. Chang, M. S. Lin, and S. Y. Chen*, "Characterization of BaPbO3 and Ba(Pb1-xBix)O3 thin films," Mater. Chem. Phys. 78, 507 (2002). |
|
| 6. C. L. Sun, S. Y. Chen*, M. Y. Yang, and A. Chin, "Electrical and structural characteristics of PbTiO3 thin films with ultra-thin Al2O3 buffer layers," Mater. Chem. Phys. 78, 412 (2002). |
|
| 5. S. Y. Chen*, C. L. Sun, S. B. Chen, and A. Chin, "Bi3.25La0.75Ti3O12 thin films on ultrathin Al2O3 buffered Si for ferroelectric memory application," Appl. Phys. Lett. 80, 3168 (2002). |
|
| 4. C. L. Sun, S. Y. Chen*, S. B. Chen, and A. Chin, "Effect of annealing temperature on physical and electrical properties of Bi3.25La0.75Ti3O12 thin films on Al2O3 buffered Si," Appl. Phys. Lett. 80, 1984 (2002). |
|
| 3. C. L. Sun, S. Y. Chen*, M. Y. Yang, and A. Chin, "Characteristics of Pb(Zr0.53Ti0.47)O3 on metal and Al2O3/Si substrates," J. Electrochem. Soc. 148, F203 (2001). |
|
| 2. A. Chin*, M. Y. Yang, C. L. Sun, and S. Y. Chen, "Stack gate PZT/Al2O3 one transistor ferroelectric memory," IEEE Electron Device Lett. 22, 336 (2001). |
|
| 1. S. Y. Chen* and C. L. Sun, "Ferroelectric characteristics of oriented Pb(Zr1-xTix)O3 films," J. Appl. Phys. 90, 2970 (2001). |
|