1. “Composite Scores of Plasma Tau and β-Amyloids Correlate with Dementia in down Syndrome,” ACS Chemical Neuroscience, 11, 191-196, 2020. [IF:3.861,CHEMISTRY, MEDICAL:13/61=21.31%]
  2. “Blood NfL: A biomarker for disease severity and progression in Parkinson disease,” Neurology, 93, e1104-e1111, 2019. [IF:8.689,CLINICAL NEUROLOGY:10/199=5.0%; NEUROSCIENCE & BEHAVIOR:4/356=1.1%]
  3. “Eight-Channel AC Magnetosusceptometer of Magnetic Nanoparticles for High-Throughput and Ultra-High-Sensitivity Immunoassay,” Sensors, 18, 1043, 2018. [IF:2.677, INSTRUMENTS & INSTRUMENTATION:10/58=17.2%](第一作者&通訊作者)
  4. “Plasma Biomarkers Differentiate Parkinson’s Disease From Atypical Parkinsonism Syndromes,” Frontiers in Aging Neuroscience, 10, 123, 2018. [IF:4.504, GERIATRICS&GERONTOLOGY: 7/49=14.3%; NEUROSCIENCES: 59/259=22.8%]
  5. “Plasma tau levels in cognitively normal middle-aged and older adults,” Frontiers in Aging Neuroscience, 9,51, 2017. [IF:4.504, GERIATRICS&GERONTOLOGY: 7/49=14.3%; NEUROSCIENCES: 59/259=22.8%]
  6. “Bioassay using blocking temperature: Interparticle interactions between biofunctionalized magnetic nanoparticles conjugated with biotargets,” APPLIED PHYSICS LETTERS, 110, 133701,2017. [IF:3.142, PHYSICS,APPLIED: 28/145=19.3%]
  7. “Ultrasound-Induced Magnetic Imaging of Tumors Targeted by Biofunctional Magnetic Nanoparticles,” ACS Nano, 11, 3030–3037, 2017. [IF:13.942, CHEMISTRY, MULTIDISCPLINARY:9/166=5.4%; CHEMISTRY,PHYSICAL:5/146=3.4%; NANOSCIENCE & NANOTECHNOLOGY: 4/87=4.6%; MASTERIALS SCIENCE, MULTIDISPLINARY:9/275= 3.2%]
  8. “Plasma α-synuclein predicts cognitive decline in Parkinson's disease,” Journal of Neurology, Neurosurgery, and Psychiatry, 88, 818-824, 2017. [IF: 7.342, SURFERY: 3/200=1.5 %; CLINICAL NEUROLOGY: 12/193= 6.2 %;PSYCHIATRY 11/142 = 7.7%;]
  9. “Blood Beta-Amyloid and Tau in Down Syndrome: A Comparison with Alzheimer’s Disease,” Frontiers in Aging Neuroscience, 8, 316,2017. [IF:4.504, GERIATRICS&GERONTOLOGY: 7/49=14.3%; NEUROSCIENCES: 59/259=22.8%]
  10. “Characterizations of anti-alpha-fetoprotein- conjugated magnetic nanoparticles associated with alpha-fetoprotein for biomedical applications,” Sensors, 2017, 17, 2018. [IF:2.677, INSTRUMENTS & INSTRUMENTSTION:10/58 =17.2%]
  11. “Immunomagnetic Reduction Assay on Desgammacarboxy Prothrombin for Screening of Hepatocellular Carcinoma,” IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 63, 1681, 2016.
  12. “Development of an ultra-high sensitive immunoassay with plasma biomarker for differentiating Parkinson disease dementia from Parkinson disease using antibody functionalized magnetic nanoparticles,” J. Nanobiotechnol., 14,41, 2016. [IF:4.239, BIOTECHNOLOGY & APPLIED MICROBIOLOGY: 20/160=12.5%]
  13. “SQUIDs in biomagnetism a roadmap towards improved healthcare,” Supercond. Sci. Technol., 29,113001, 2016. Topical Review. [IF: 2.878; Physics, Applied: 38/148=25.67 %]
  14. “Rapid and quantitative discrimination of tumour cells on tissue slices,” Nanotechnology,27, 235101,2016.(通訊作者) [IF: 3.440, Materials Science, Multidisplinary: 60/275=21.8%;Physics, Applied: 28/148=18.91%]
  15. “Sub-Tesla-field magnetization of vibrated magnetic nanoreagents for screening tumor markers,” Applied Physics Letters, 16, 073703, 2015. (第一作者&通訊作者) [IF:3.142, PHYSICS, APPLIED: 28/145=19.3%]
  16. “Dual-Imaging Model of SQUID Biosusceptometry for Locating Tumors Targeted Using Magnetic Nanoparticles,” Journal of Nanobiotechnology, 13, 11, 2015. (第一作者&通訊作者) [IF:4.239, BIOTECHNOLOGY & APPLIED MICROBIOLOGY: 25/161=15.5%]
  17. “Magnetic Clustering Effect during the Association of Biofunctionalized Magnetic Nanoparticles with Biomarkers,” PLoS ONE, 10, e0135290,2015. (共同作者)[IF:3.234, MULTIDISCIPLINARY SCIENCES:9/57=15.7%]
  18. “Assaying carcinoembryonic antigens by normalized saturation magnetization,” Nanoscale Research Letters, 10, 964, 2015. (通訊作者) [IF:2.584,ranking: 69/271=25.4% MATERIALS SCIENCE, MULTIDISCIPLINARY; 34/145=23.4% PHYSICS, APPLIED]
  19. “Novel Integration of an Ultrasound Probe and a Rotational-Scanning SQUID Biosusceptometer for Diagnosing Liver Tumors,” IEEE Trans. Appl.Supercond., 25, 1602704,2015. (第一作者&通訊作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  20. “Experimental study on thermal performances of heat pipes for air-conditioning systems influenced by magnetic nanofluids, external fields, and micro wicks,” International Journal of Refrigeration, 43, 62-70,2014. (通訊作者) [IF: 2.241, ENGINEERING, MECHANICAL: 15/130=11.5%]
  21. “Time-evolution Contrast of Target MRI Using High-stability Antibody Functionalized Magnetic Nanoparticles: An Animal Model,” Journal of Nanomaterials, 2014, 351848,2014. (共同作者) [IF: 1.611, MATERIALS SCIENCE, MULTIDISCIPLINARY: 104/251=41.4%]
  22. “Using Bio-Functionalized Magnetic Nanoparticles and Dynamic Nuclear Magnetic Resonance to Characterize the Time-Dependent Spin-Spin Relaxation Time for Sensitive Bio-Detection,” Sensors,14, 21409-21417,2014. (共同作者)[IF:2.245, INSTRUMENTS & INSTRUMENTATION:10/56=17.8%]
  23. “ Plasma Tau as a Window to the Brain – Negative Associations with Brain Volume and Memory Function in Mild Cognitive Impairment and Early Alzheimer’s Disease,” Human Brain Mapping, 35,3132-3142, 2014. (共同作者) [IF: 6.924, RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING: 2/121=1.65%; NEUROIMAGING: 1/13=7.6% ;NEUROSCIENCES: 22/251=8.76%]
  24. “Microtesla NMR and High Resolution MR Imaging Using High-Tc SQUIDs ,” IEEE Trans. Appl.Supercond., 23, 1602404, 2013. (共同作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  25. “Imaging the Distribution of Magnetic Nanoparticles on Animal Bodies Using Scanning SQUID Biosusceptometry attached with a Video Camera,” IEEE Trans. Appl.Supercond., 23, 1601503, 2013. (第一作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  26. “Combined plasma biomarkers for diagnosing mild cognition impairment and Alzheimer’s disease,” ACS Chemical Neuroscience, 4,1530-1536, 2013. (共同作者) [IF: 3.871, CHEMISTRY, MEDICINAL:7/59=11.8%]
  27. “Time-dependent phase lag of biofunctionalized magnetic nanoparticles conjugated with biotargets studied with alternating current magnetic susceptometor for liquid phase immunoassays,” APPLIED PHYSICS LETTERS, 103, 243703, 2013. (共同作者) [IF: 3.794, PHYSICS, APPLIED: 20/128=15.6%]
  28. “Anti-CEA-functionalized superparamagnetic iron oxide nanoparticles for examining colorectal tumors in vivo,” Nanoscale Research Letters, 8,413, 2013. (通訊作者) [IF:2.481,ranking: 53/251=21.1% MATERIALS SCIENCE, MULTIDISCIPLINARY; 31/136=22.7% PHYSICS, APPLIED]
  29. “Stability study for magnetic reagent assaying Hb and HbA1c,” Journal of Magnetism and Magnetic Materials, 326, 147–150, 2013. (第二作者) [IF: 1.78, MATERIALS SCIENCE, MULTIDISCIPLINARY: 75/232=32.4%]
  30. “Clinic Applications in Assaying Ultra-low concentration Bio-markers Using HTS SQUID-based AC Magnetosusceptometer” IEEE Trans. Appl.Supercond., 23, 1600604, 2013. (第二作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  31. “Development for High-accuracy in-vitro Assay of Vascular Endothelial Growth Factor Using Nano-magnetically Labeled Immunoassay,” Journal of Nanomaterials, 2013, 695276, 2013. (共同作者) [IF: 1.547, MATERIALS SCIENCE, MULTIDISCIPLINARY:95/241=39.4%]
  32. “Enhancing the tumor discrimination using antibody-activated magnetic nanoparticles in ultra-low magnetic fields,” APPLIED PHYSICS LETTERS, 102, 013119, 2013. (共同作者) [IF: 3.844, PHYSICS, APPLIED: 17/125=13.6%]
  33. “Experimental Study on Low-detection Limit for Immunomagnetic Reduction Assays by Manipulating Reagent Entities,” IEEE Transactions on Nanobioscience, 12, 65-68, 2013. (共同作者) [IF:1.28 NANOSCIENCE & NANOTECHNOLOGY: 43/66=65.1%]
  34. “New assay for old markers - plasma beta amyloid of mild cognitive impairment and Alzheimer’s disease,” Current Alzheimer Research, 9, 1142-1148, 2012. (共同作者) [IF:3.676, ranking: 17.8% CLINICAL NEUROLOGY]
  35. “ In vivo tumor targeting and imaging with anti-vascular endothelial growth factor antibody-conjugated dextran-coated iron oxide nanoparticles,” International Journal of Nanomedicine, 2012, 2833–2842, 2012. [IF:3.13, ranking: 26.8%, PHARMACOLOGY & PHARMACY]
  36. “Effect of molecule-particle binding on the reduction in the mixed-frequency ac magnetic susceptibility of magnetic bio-reagents,” JOURNAL of APPLIED PHYSICS, 112, 024704-1 -024704-4, 2012. (共同作者) [IF:2.168 PHYSICS, APPLIED: 37/125=29.6%]
  37. “Feasibility studies for assaying alpha-fetoprotein using antibody- activated magnetic nanoparticles,” International Journal of Nanomedicine, 7, 1991–1996, 2012. (共同作者) [IF:3.13,ranking= 26.8%, PHARMACOLOGY & PHARMACY]
  38. “Characteristics of magnetic labeling on liver tumors with anti-alpha-fetoprotein-mediated Fe3O4 magnetic nanoparticles,” International Journal of Nanomedicine, 7, 2987–2996, 2012. [IF:3.13, ranking: 26.8%, PHARMACOLOGY & PHARMACY ] (通訊作者&第二作者)
  39. “Use of a high-Tc SQUID-based nuclear magnetic resonance spectrometer in magnetically unshielded environments to discriminate tumors in rats, by characterizing the longitudinal relaxation rate,” Journal of Instrumentation, 7, P06005 , 2012. (共同作者) [IF:1.869 INSTRUMENTS & INSTRUMENTATION: 11/58=18.9%]
  40. “Immunomagnetic reduction assay for nervous necrosis virus extracted from groupers,” Journal of Virological Methods, 181,68-72. 2012. (共同作者) [IF:2.011,ranking= 81/158=51.2%, BIOTECHNOLOGY & APPLIED MICROBIOLOGY ]
  41. “Universal behavior of bio-molecule-concentration dependent reduction in ac magnetic susceptibility of bio-reagents,” IEEE MAGNETICS LETTERS,3, 1500104, 2012.
  42. “The magnetic-nanofluid heat pipe with superior thermal properties through magnetic enhancement,” Nanoscale Research Letters, 7, 322, 2012. (通訊作者&第二作者) [IF: 2.726, PHYSICS, APPLIED: 23/125=18.4% & MATERIALS SCIENCE, MULTIDISCIPLINARY: 44/232=18.9%]
  43. “A noninvasive method to determine the fate of Fe3O4 nanoparticles following intravenous injection using scanning SQUID biosusceptometry,” PLOS ONE, 7, e48510, 2012. (第二作者) [IF:4.09, ranking:14.1%, BIOLOGY]
  44. “Discriminating Hepatocellular Carcinoma in Rats Using a High-Tc SQUID-detected Nuclear Magnetic Resonance Spectrometer in a Unshielded Environment,” PLOS ONE, 7, e47057, 2012. (共同作者) [IF:4.09, ranking:14.1%, BIOLOGY]
  45. “In Vivo Screening of Hepatocellular Carcinoma Using the AC Susceptibility of Antialphafetoprotein-Activated Magnetic Nanoparticles,” PLOS ONE, 7, e46756, 2012. (第一作者) [IF:4.09, ranking:14.1%, BIOLOGY]
  46. “In-vivo and fast examination of iron concentration of magnetic nano-particles in an animal torso via scanning SQUID Biosusceptometry,” IEEE Transactions on Applied Superconductivity,21, 2250,2011. (第二作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  47. “Step –edge High-Tc SQUID Magnetometer for Low-Field Nuclear Magnetic Resonance,” IEEE Trans. Appl. Supercond. 21, 534-537(2011) (第三作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  48. “Bio-functionalized Magnetic Nanoparticles for Specifically Detecting Bio-markers of Alzheimer ’s Disease in vitro,” ACS Chemical Neuroscience, 2, 500–505,2011. (第三作者) [IF:3.676, ranking: 15.2% CHEMISTRY, MEDICINAL]
  49. “Multi-channel SQUID-based Ultra-high-sensitivity in-vitro Detections for Bio-markers of Alzheimer's Disease via Immunomagnetic Reduction,” IEEE Trans. Appl. Supercond. 21, 477-480,2011. (第三作者) [IF: 1.041, ENGINEERING, ELECTRICAL & ELECTRONIC: 120/245=48.9%]
  50. “In-vivo and real-time measurement of magnetic-nanoparticles distribution in animals by scanning SQUID Biosusceptometry for biomedicine study,” IEEE Transactions on Biomedical Engineering, 58, 2719 – 2724,2011. (第一作者) [IF:2.278,ranking= 22/72=30.5%, ENGINEERING, BIOMEDICAL]
  51. “Exploration of the relationship between the tumor burden and the concentration of vascular endothelial growth factor in liver-cancer-bearing animals using immunomagnetic reduction assay,” Journal of Biomedical Nanotechnology, 7, 1–7, 2011. (第三作者) [IF:4.216, ranking: 21/112=18.75% MEDICINE, RESEARCH & EXPERIMENTAL]
  52. “Non-invasive and High-sensitivity Scanning Detection of Magnetic Nanoparticles in Animals Using High-Tc Scanning Superconducting-Quantum-Interference- Device Biosusceptometry,” REVIEW OF SCIENTIFIC INSTRUMENTS,82, 084301, 2011.; 亦被選為Virtual Journal of Applications of Superconductivity -- August 15, 2011 (通訊作者&第一作者) [IF:1.367,ranking= 34.5%, INSTRUMENTS & INSTRUMENTATION]
  53. “Magnetic nanoparticles for high-sensitivity detection on nucleic acids via superconducting-quantum-interference-device-based immunomagnetic reduction assay,” Journal of Magnetism and Magnetic Materials, 323 ,681–685, 2011. (第二作者) [IF:1.78, ranking: 75/232=32.3% MATERIALS SCIENCE, MULTIDISCIPLINARY]
  54. “Study on magnetic fluid optical fiber devices for optical logic operations by characteristics of superparamagnetic nanoparticles and magnetic fluids,” Journal of Nanoparticle Research, vol. 12, pp. 293, 2010. (第一作者) [IF:2.478,ranking=39/214=18.2% MATERIALS SCIENCE, MULTIDISCIPLINARY]
  55. “Scanning Waveform Analysis of the Room-Temperature-Probe SQUID NDE System,” NDT & E INTERNATIONAL, 43, 586, 2010 . (第一作者) [IF: 1.446 MATERIALS SCIENCE, CHARACTERIZATION & TESTING 5/32=18.7%]
  56. “Magnetically enhanced high-specificity virus detection using bio-activated magnetic nanoparticles with antibodies as labeling markers,” Journal of Virological Methods, vol.164 ,pp. 14,2009. [IF: 2.133,ranking=69/152=45.3% BIOTECHNOLOGY & APPLIED MICROBIOLOGY]
  57. “Immnuomagnetic reduction assay using high-Tc superconducting-quantum-interference-based magneto- susceptometry,” JOURNAL OF APPLIED PHYSICS, 107, 074903, 2010. (第一作者) [IF:2.079;ranking= 28.8% PHYSICS, APPLIED]
  58. “Measurements of the Complex Transmission/Reflection Coefficient of a Material Using Mixed-Type Common-Path Heterodyne Interferometery, ” IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 58, 1878, 2009. (第一作者) [IF: 1.025;ranking=46.5% INSTRUMENTS & INSTRUMENTATION]
  59. “The characterization of a sensitive and room-temperature probe for SQUID NDE system,” SUPERCONDUCTOR SCIENCE & TECHNOLOGY, 22, 015015, 2009. (第一作者) [IF: 2.694;ranking: 18/108=16.7% PHYSICS, APPLIED]
  60. “Spatial Recognition of a Superconducting Quantum Interference Devices Nondestructive Evaluation System Using a Small Room-Temperature Probe,” Japanese Journal of Applied Physics, vol. 48, pp. 126506, 2009. (第一作者) [IF: 1.138: PHYSICS, APPLIED:57/108=52.7%]
  61. “Simultaneous Identification of the Low-Field Induced Tiny Variation of Complex Refractive Index for Anisotropic and Opaque Magnetic Fluid Thin Film by Common-Path Heterodyne Interferometer”, Applied Optics, vol. 48, pp. 5604-5611, 2009. (第二作者) [IF: 1.41: ranking=25/71=35.2%OPTICS]
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  63. “Characterization of UV-modulated dielectric constant of ZnO thin films,” Optoelectronics and Advanced Materials-Rapid Communications, 2, 81-84, 2008. (第一作者) [IF: 0.224: ranking92.7% MATERIALS SCIENCE, MULTIDISCIPLINARY]
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  66. “Magnetic-fluid optical-fiber modulators via magnetic modulation”, Appl. Phys. Lett., vol.90, pp.133505-1 ~3, 2007. (第一作者) [IF: 3.596.;ranking: 8/94=8.5% PHYSICS, APPLIED]
  67. “UV-modulated One-dimensional Photonic-crystal Resonator for Visible Lights”, Appl. Phys. Lett, Vol.89, pp.231108-1 ~3,2006. (共同作者) [IF: 3.977.;ranking: 6/84=7.1% PHYSICS, APPLIED]
  68. “Designing Optical-fiber Modulators by Using Magnetic Fluids”, Optics Letters, vol. 30, pp.543-545,2005. (第二作者) [IF: 3.599.;ranking: 3/55=5.4% OPTICS]
  69. “Dynamic response of optical-fiber modulator by using magnetic fluid as a cladding layer”, J. Appl. Phys, vol.97, pp.043104 ,2005. (第一作者) [IF: 2.498.;ranking: 12/83=14.4% PHYSICS, APPLIED]
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  71. “Tunable optical switch using magnetic fluids”, Appl. Phys. Lett, vol.85, pp.1 ~3, 2004. (共同作者) [IF: 4.308.;ranking: 4/79=5.0% PHYSICS, APPLIED]
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  1. “Magnetic Tools for Medical Diagnosis,” Chapter 9 in “Nanotechnology Characterization Tools for Biosensing and Medical Diagnosis,”[the 8th volume of SPRINGER book series] Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, Germany, June 7, 2018. ISBN: 978-3-662-56332-8 (第一作者/通訊作者)