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Name
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I-Fang Cheng
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Title
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Associate Professor
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Office
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K315-2, K313
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Phone
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886-6-2533131 Ext. 3543
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Email
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ifcheng@stust.edu.tw
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Webpage
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Education
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Ph.D., Institute of Nanotechnology and
Microsystem Engineering, National Cheng Kung University
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Research Interests
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Biomicrofluidic chips, Bio-MEMs/NEMs, Micro/Nano-Electrokinetics,
Biosensors, Research-Product transformation
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Laboratory
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Biomicrofluidics and Bio-Sensing System Lab. (K313)
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Publications
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Journal Papers
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1. E Iswardy, T-C Tsai, I-F
Cheng, T-C Ho, G-C Perng, H-C Chang, A bead-based
immunofluorescence-assay on a microfluidic dielectrophoresis platform for
rapid dengue virus detection, Biosens.
Bioelectron., 95, 174-181 (2017).
(SCI,
IF= 11.44, Ranking: 1/28= 3.5%) (Cited by 61 times)
2. I-F
Cheng*, T-Y Chen, and W-C Chao, Increasing Local Density of
Molecules/Bacteria on a Sensing Surface from Diluted Blood Using 3D Hybrid
Electrokinetics, Biomicrofluidics, 10, 034116 (2016) (SCI,
IF= 3.258, Ranking: 3/31= 9.6%) (Cited by 8 times)
3. I-F Cheng*, W-L Huang, T-Y Chen, Y-D
Lin, C-W Liu, W-C Su*, Antibody-Free Isolation of Rare Cancer Cells from
Blood based on 3D Lateral Dielectrophoresis, Lab Chip, 15, 2950
(2015). (SCI,
IF= 6.97, Ranking: 6/79= 7.5 %) (Cited by 94
times)
(This work was selected for publication as
a Back Cover in Lab Chip)
4. I-F Cheng*, T-Y Chen, R-J Lu and H-W
Wu, Rapid Identification
of Bacteria Utilizing Amplified Dielectrophoretic Force-Assisted
Nanoparticle-Induced SERS, Nanoscale Res Lett, 9, 324
(2014). (SCI, IF= 4.91, Ranking: 24 /143= 16.7 %)
(Cited by 52 times)
5. I-F Cheng, S-C
Chiang, C-C Chung, T-M Yeh, H-C Chang, Ripple Structure-Generated Hybrid
Eelectrokinetics for on-Chip Mixing and Separating of Functionalized Beads,
Biomicrofluidics, 8, 061102 (2014). (SCI,
IF= 3.258, Ranking: 3/31= 9.6%) (Cited
by 9 times)
6. I-F
Cheng*, H-C Chang, T-Y Chen, CM Hu, F-L Yang, Rapid (<5min)
Identification of Pathogen in Human Blood by Electrokinetic Concentration
and Surface-Enhanced Raman Spectroscopy, Scientific Reports(Nature
Publishing Group), 3, 2365 (2013)
(SCI, IF= 5.708, Ranking: 5/56= 8.9%)
(Cited by 154 times)
7. I-F Cheng, S-L Yang, C-C Chung,
H-C Chang, A Rapid Electrochemical Biosensor based on an AC Electrokinetics
Enhanced Immuno-reaction, Analyst, 138, 4656 (2013)
(SCI, IF= 4.616, Ranking:
7/74= 9.4%) (Cited by 36 times)
8. I-F Cheng, H-W Han, H-C Chang, Dielectrophoresis and shear enhanced DNA hybridization for
rapid discrimination of Candida species, Biosens. Bioelectron.,
33, 36 (2012) (SCI,
IF= 11.44, Ranking: 1/28= 3.5%, 3/74= 4%)
9. C-C Chung, I-F Cheng, H-C
Kan, H-M Chen, W-H Yang, H-C Chang, Screening of the antibiotic
susceptibility to ƒÒ-lactam-induced elongation of Gram-negative bacteria
based on dielectrophoresis, Anal. Chem., 84, 3347(2012). (SCI, IF= 6.986, Ranking: 4/74= 5%) (Cited by 48 times)
10. I-F Cheng, S-L Liu, C-C Chung, H-C
Chang, Stepwise gray-scale light-induced
electric field gradient for passive and continuous separation of
microparticles, Microfluid Nanofluid, 12, 95 (2012).
(SCI, IF= 2.529, Ranking: 7/56= 12.5%) (Cited by 8 times)
11. S-H Liao†, I-F Cheng† and H-C Chang, Precisely sized
separation of multiple particles based on dielectrophoresis gradient in the
z-direction, Microfluid
Nanofluid, 12, 201 (2012) (†Equal contribution) (SCI, IF= 2.529, Ranking: 7/56= 12.5%) (Cited by 14 times)
12. I-F Cheng, C-C Chung and H-C Chang, High-throughput electrokinetic bioparticle
Focusing based on a travelling-wave dielectrophoretic field, Microfluid Nanofluid, 10,
649 (2011).
(SCI,
IF= 2.529, Ranking: 7/56= 12.5%) (Cited by 36
times)
13. C-C
Chung, I-F Cheng, C-C Lin, and H-C Chang, Rapid
quantification of bio-particles based on image visualisation in a
dielectrophoretic microfluidic chip, Microfluid
Nanofluid, 10, 311 (2011).
(SCI, IF= 2.529, Ranking: 7/56= 12.5%) (Cited by 14 times)
14. I-F
Cheng, C-C Lin, D-Y Lin, H-C Chang, A
dielectrophoretic chip with a roughened metal surface for on-chip Surface
Raman Enhanced Scattering analysis of bacteria, Biomicrofluidics, 4, 034104
(2010).
(SCI, IF= 3.258, Ranking: 3/31= 9.6%) (Cited by 94
times) This work was
also selected for publication in Virtual Journal of Biological
Physics research, Sep. 15 (2010).
15. I-F Cheng, S Senapati, X Cheng, S
Basuray, H-C Chang and H-C Chang, A rapid field-use assay for mismatch number and location
of hybridized DNAs, Lab Chip, 10, 828 (2010). (SCI, IF=
6.97, Ranking: 6/79= 7.5 %)
(Cited by 76 times)
16. I-F
Cheng, V Froude, Y-E Zhu,
H-C Chang and H-C Chang, "A Continuous high throughput
bioparticle sorter based on 3D traveling wave dielectrophoresis", Lab Chip, 9, 3193 (2009). (SCI,
IF= 6.97, Ranking: 6/79= 7.5 %)
(Cited by 163 times)
17. I-F Cheng, H-C Chang, D Hou, and H-C Chang, "An integrated
dielectrophoretic chip for continuous bioparticle filtering, focusing,
trapping and detecting", Biomicrofluidics, 1, 021503 (2007). (SCI,
IF= 3.258, Ranking: 3/31= 9.6%)
(Cited by 311 times, most cited paper in Biomicrofluidics
from 2007 to 2015)
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Conference Papers
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1.I-F Cheng*, T-Y Chen, Y-L Chen, Y-L Chen, W-C Chao,
Rapid Determination of Bacterial Antibiotic ResistanceUsing a
Hybrid
Optofluidic-Electrokinetic Chip , 2018 WorldCongress on Medical Physics and
Biomedical Engineering, Czech Republic, Prague, 2018 (poster presentation)
2.
I-F Cheng*, T-Y Chen, W-C Su, Antibody-FreeIsolation and Analysis of
Circulating Tumor Cells from DilutedHuman Blood, 24th International
Molecular Medicine Tri-Conference(Mol Med TRI-CON2017), (Poster
presentation), USA, San Francisco, 2017 (poster presentation).
3.
I-Fang Cheng*, Tzu-Ying Chen, Minute-level Speed Identification and
Assessment of Bacteria/Cells Using Electrokinetic Assistance, International
Conference on Advanced Technology Innovation 2016(ICATI2016), Bangkok,
Thailand. (Oral presentation)
4.
I-F Cheng*, T-Y Chen, Y-D Lin, C-W Liu, W-C Su, A
NovelDielectrophoresis-Based Microfluidic Chip for Antibody-Free Isolation
of Circulating Tumor Cells from Blood, IEEE NANO 2015, Roma, Italy. (Oral
presentation)
5. I-F Cheng*, T-Y Chen, H-C Chang,
Electrokinetics-Based Microfluidic Technology for the Rapid Separation and
Concentration of Bacteria/Cells/Biomolecules, ICKEM 2014, Indonesia, Bali,
(2014). (Oral
presentation, and session chair)
6. 1. I-F Cheng*, Hsiao-Lan
Yang, Hsien-Chang Chang, (2012) ¡§A Rapid and Label-free Biosensor Based on
an AC Electrokinetically-Enhanced Immuno-reaction¡¨, IEEE NANOMED2012,
Bangkok, Thailand. (Oral presentation)
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¡@
Projects
NSTC Projects:
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Year
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Project
Title
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Budget
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Period
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2022
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Development of a Clinical Instrument for Pure Culture-free
Antibiotics Susceptibility Testing (II) (Advanced application for incubating industry project)
(NSTC 111-2622-B-218-001) PI
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9,800,000
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2022/1/1 ¡V 2023/5/31
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2022
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Development of large-area,
multiscale nanostructure polymer molding technology and its applications in
biomedical and optical engineering
(NSTC 111-2622-B-218-001) Co-PI
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6,000,000
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2022/8/1 ¡V
2023/7/31
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2020
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Development
of a Biochip System to Accelerate Total Assay Time For Precision Medicine
in Clinical Sepsis
(MOST
109-2221-E-492-002-MY2) PI
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2,469,000
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2020/8/1 ¡V
2022/10/31
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2020
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Development
of a Clinical Instrument for Pure Culture-free Antibiotics Susceptibility
Testing (I) (Advanced application for incubating industry
project)
(MOST
109-2622-B-492-002-) PI
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9,200,000
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2020/11/1
¡V 2021/12/31
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2020
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Label-free, rapid, high-sensitivity optofluidic
biosensing system for rapid and simultaneous identification of pathogens
and host response in septic patients (MOST 109-2218-E-194-006-) Co-PI
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4,488,000
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2020/5/1¡V
2021/4/30
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2019
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Development
of a Cost-Effective BioChip System for Rapid and On-Site Detection of
Bacteria Cell Density, Somatic Cell Count, and Antimicrobial Susceptibility
Testing (MOST 108-2221-E-492-008-) PI
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991,000
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2019/8/1¡V
2020/7/31
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2019
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Label-free, rapid,
high-sensitivity optofluidic biosensing system for rapid and simultaneous
identification of pathogens and host response in septic patients (III) (MOST 108-2218-E-194-001) Co-PI
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6,303,000
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2019/5/1¡V
2020/4/30
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2018
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Label-free, rapid, high-sensitivity optofluidic
biosensing system for rapid and simultaneous identification of pathogens
and host response in septic patients
(II) (MOST 107-2218-E-194-004) Co-PI
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6,540,000
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2018/5/1¡V
2019/4/30
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2018
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Development
of a biomicrofluidic chip and its portable prototype for rapid detection of
Mastitis, analysis of bacterial antibiotic susceptibility, and milk quality
monitoring (MOST
107-2221-E-492-020-) PI
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1,136,000
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2018/8/1¡V
2019/7/31
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2017
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Label-free, rapid, high-sensitivity optofluidic
biosensing system for rapid and simultaneous identification of pathogens
and host response in septic patients
(I) (MOST 106-3114-E-194-001) Co-PI
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6,873,000
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2017/5/1¡V
2018/4/30
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2016
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Rapid
identification and quantification of pathogens form blood/water and
determination of its Drug Susceptibility within four hours
(MOST 105-2628-E-492 -001 -MY2) (Excellent Young Scholars
project) PI
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2,423,000
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2016/8/1¡V
2018/10/31
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2015
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Development of Antibody-free Isolation and Analysis
of Circulating Tumor Cells for Early Detection, Therapy Monitoring and
Prognosis of Lung Cancer (MOST
104-2221-E-492 -009 -MY2)
PI
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1,690,000
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2015/8/1¡V
2017/10/31
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2014
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An AC Electrokinetics-based Micro-Analysis System for
Sorting, Trapping Cancer Cells and Discriminating their Drug
Susceptibilities
(NSC 102-2221-E-492 -001 -MY2) (Excellent Young Scholars
project) PI
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1,861,000
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2013/8/1¡V
2015/10/31
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2013
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AC
Electrokinetic Concentration of Pathogen from Blood for Surface Enhanced
Raman Spectroscopy Identification of Bacteria (NSC
101-2218-E-492-002-) PI
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686,000
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2012/8/1¡V
2013/7/31
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Industry
Projects:
|
Year
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Project
Title
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Budget
|
Period
|
|
2022
|
BioMicrofluidic chip
fabrication, real sample validation, and the design for pre-production
tests (PI)
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2,100,000
|
2022/12/20 -
2024/12/19
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2021
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Design and
Verification for Pilot Run of Thin-layer nano-channel Fabrication (I¡BII) (PI)
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2,600,000
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2021/05/01 -2023/7/31
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2018
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OE-AST Biochip on Clinical Testing and
Investigation (PI)
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1,150,000
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2007/06/01 - 2008/05/31
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2017
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Development of a simple method for thin-layer
nano-channel fabrication (I¡BII¡BIII) (PI)
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3,800,000
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2017/12/01 - 2021/3/30
|
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2016
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The Design and
Validation of a Microfluidic
Chip for Nanoscale Biomolecular Concentration (II) (PI)
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1,200,000
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2016/11/01 - 2017/11/30
|
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2015
|
The Design and
Validation of a Microfluidic
Chip for Nanoscale Biomolecular Concentration (I) (PI)
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1,100,000
|
2015/10/01 - 2016/9/30
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2014
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The Design and Validation for a Reagent
Concentration Gradient Generator
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1,100,000
|
2014/10/01 - 2015/9/30
|
|
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Patents
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1. Photoelectrical device for concentration
detection, method for concentration detection thereof and method for
testing an antibiotic susceptibility on bacteria, I-Fang Cheng , I-L Chen, T-Y Chen, US patent, Patent
NO.: US 11,143,585 B2, 2021-2039.¡C
2. ¤@ºØ¥Î©ó¿@«×ÀË´úªº¥ú¹q¸Ë¸m¤Î¨ä¿@«×ÀË´ú¤èªk¥H¤Î´ú¸ÕÃĪ«¹ï²Óµß¦³®Ä©Êªº¤èªk¡Aµo©ú¤H: ¾G©yªÕ¡B³¯«º¿o¡B³¯¥HÆF¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I685656¡A2020-2038¡C
3. ¤ÀÂ÷²É¤l¤§¤èªk¡B¨ä¬y¹D¸Ë¸m¥H¤Î®·®»µ²ºc¡Aµo©ú¤H: ¾G©yªÕ¡BĬ¤¬w¡B¶À°¶Û¡B³¯«º¿o¡BªL¨|¼w¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I524930, 2016-2033¡C
4.
¡¥Bio-Chip
and Method for Separating and Concentrating Particles Using the Same,¡¦, I-Fang
Cheng, Hsien-Chang Chang, Fu-Liang Yang, Tzu-Ying Chen, US Patent,
US 9,498,784 B2, 2016-2035.
5.
¥H½Æ¦X¹q°Ê¤O®·®»¨Ã¤ÀªR¥Íª«·L²Éªº¤èªk»P´¹¤ù¡Aµo©ú¤H: ¾G©yªÕ¡B±i¾Ë¹ü¡BĬ¤¬w¡B¶À°¶Û¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I494563, 2015-2033.
6. ¥i¿ï¾Ü¦a¿@ÁY¤ÀÂ÷«Ý´ú²É¤lªº¤èªk»P´¹¤ù¡Aµo©ú¤H: ¾G©yªÕ¡B·¨´I¶q¡B±i¾Ë¹ü¡B³¯«º¿o¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I510773 , 2015-2032.
7.
¥Íª«´¹¤ù¸Ë¸m¤Î¤ÀÂ÷¨Ã¿@ÁY¤@¬yÅ餤ªº·L²Éªº¤èªk¡Aµo©ú¤H: ¾G©yªÕ¡B·¨´I¶q¡B±i¾Ë¹ü¡B³¯«º¿o¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I472756, 2015-2032.
8.
¤¶¹q·L²É¾Þ±±´¹¤ù»P¨ä»s³y¤èªk©M¾Þ±±¤¶¹q·L²Éªº¤èªk,µo©ú¤H: ±i¾Ë¹ü¡BÁé¬Fõ¡B¾G©yªÕ¡B¤ýµ¤§»¡B½±²±¬u¡B¥ôÄR«C¡A±M§QÃÒ¸¹: I507803¡A2015-2033¡C
9.
Method
for Antibiotic Susceptibility Testing and Determining Minimum Inhibitory
Concentration of the Antibiotics, Cheng-Che Chung, I-Fang Cheng, Hsien-Chang Chang, US Patent, US 8,911,605
B2, 2014.
10.
Microbial
Identification and Manipulation of Nanoscale Biomolecules, I-Fang
Cheng, Hsien-Chang Chang, Cheng-Che Chung, US Patent, US 8,808,518,
2014-2034.
11.
¥Íª«Å²©w¤èªk»P¾Þ±±©`¦Ìµ¥¯Å¤§¥Íª«¤À¤lªº¤èªk¡Aµo©ú¤H¡G¾G©yªÕ¡B±i¾Ë¹ü¡BÁé¬Fõ¡A¤¤µØ¥Á°ê±M§Q¡A±M§QÃÒ¸¹: I404802 , 2013~2030.
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