Advanced Polymer and Nanotechnology Laboratory
國際期刊論文
Journal Paper
2019
No.39
M.-Y. Huanga , Loganathan Veeramuthua , C.-C. Kuoa , Y.-C. Liaoa , D.-H. Jianga, F.-C. Lianga , Z.-L. Yana , Redouane Borsalid , C.-C. Chuehe ,“Improving performance of Cs-based perovskite light-emitting diodes by dual additives consisting of polar polymer and n-type small molecule” Organic Electronics,Volume 67, 2019 , Page 294-301 . (SCI, IF=3.680.)
No.38
F.-C. Liang , Y.-W. Chang , C.-C. Kuo , C.-J. Cho , D.-H. Jiang , F.-C. Jhuang , S.-P. Rweia , and Redouane Borsali “A mechanically robust silver nanowire– polydimethylsiloxane electrode based on facile transfer printing techniques for wearable displays” The Royal Society of Chemistry, Volume 11, 2019, Page 1520-1530 . (SCI, IF=7.233.)
2018
No.37
A.-N. Au-Duong , C.-C. Kuo , Y.-C. Chiu , “Self-Assembled Oligosaccharide-Based Block Copolymers as Charge-Storage Functions for Memory Devices”, Polymer Journal, Volume 8,2018, Page1-10 . (SCI) (SCI, IF= 2.145)
No.36
C.-J. Cho , S.-Y. Chen, C.-C. Kuo , L. Veeramuthu , A.-N. Au-Duong , Y.-C. Chiu , S.-H. Chang , “Morphology and Optoelectronic Characteristics of Organic Field-Effect Transistors Based on Blends of Polylactic Acid and Poly(3-hexylthiophene) ”. Polymer Journal, Volume 5, 2018 , Page1-13 . (SCI, IF= 2.145)
No.35
C.-T. Wang , T.-M. Tu , J.-Y. Syu , C.-C. Kuo , P.-C. Kuo , Y.-R. Jhong , W.-Y. Lin , “Experimental Investigation of the Filtration Characteristics of Charged Porous Fibers” Aerosol and Air Quality Research, Volume 18, 2018 , Page1470–1482 . (SCI ,IF=2.589)
No.34
F.-C. Liang , Y.-H. Huang , C.-C. Kuo , C.-J. Cho , S.-P. Rwei , Q. Jia , Y. Ding , Y. Chen , R. Borsali , “Thermally deposited silk fibroin as the gate dielectric layer in organic thin-film transistors based on conjugated polymer”, Reactive and Functional Polymers, Volume 131 , 2018, Page 368-377 .(SCI, IF= 2.975)
No.33
Bo-Yu Chen , Y.-C. Lung , C.-C. Kuo , F.-C. Liang , T.-L. Tsai , D.-H. Jiang , Toshifumi Satoh and R.-J. Jeng “Novel Multifunctional Luminescent Electrospun Fluorescent Nanofiber Chemosensor-Filters and Their Versatile Sensing of pH, Temperature, and Metal Ions” Polymers, Volume 10, November 2018, Page 1259. (SCI, IF= 4.330)
No.32
C.-C. Lin , D.-H. Jiang , C.-C. Kuo , C.-J. Cho , Y.-H. Tsai , T. Satoh, C. Su , “Water-Resistant Efficient Stretchable Perovskite-Embedded Fiber Membranes for Light-Emitting Diodes”, ACS Appl. Mater. Interfaces, 2018, Volume 10, Page 2210−2215. (SCI, IF=7.823)
2017
No.31
F.-C. Liang , Y.-L. Luo , C.-C. Kuo , B.-Y. Chen , C.-J. Cho , F.-J. Lin , Y.-Y. Yu , R. Borsali , “Novel Magnet and Thermoresponsive Chemosensory Electrospinning Fluorescent Nanofibers and Their Sensing Capability for Metal Ions”, Polymers, Volume 9, April 2017, Page 136. (SCI, IF=4.330)
No.30
B.-Y. Chen , C.-C. Kuo , C.-J. Cho , F.-C. Liang , R.-J. Jeng , “Novel Fluorescent Chemosensory Fil-ter Membranes Composed of Electrospun Nanofibers with Ultra-Selective and Reversible pH and Hg2+ Sensing Characteristics”, Dyes and Pigments ,Volume 143, 2017, Page 129-142. (SCI, IF=3.473)
No.29
F.-C. Liang , C.-C. Kuo , B.-Y. Chen , C.-J. Cho , C.-C. Hung , W.-C. Chen , R. Borsali , ”RGB-Switchable Porous Electrospun Nanofiber Chemosensor-filter Prepared from Multifunctional Copolymers and Their Versatile Sensing for pH and Heavy Metal”, ACS Applied Materials and Interface, Volume 9 , 2017, pp 16381–216396s. (SCI, IF=7.823)
No.28
Y.-Y. Yu , T.-J. Huang , W.-Y Lee , Y.-C. Chen , C.-C. Kuo, ”Highly Transparent Polyimide/nanocrystalline-zirconium Dioxide Hybrid Materials for Organic Thin Film Transistor Applications”, Organic Electronics, Volume 48, May 2017, Page 19-28. (SCI, IF=3.399.)
No.27
H.-F. Wen , H.-C. Wu , J. Aimi , C.-C. Hung , Y.-C. Chiang , C.-C. Kuo, W.-C. Chen , ”Soft Poly(butyl acrylate) Side Chains toward Intrinsically Stretchable Polymeric Semiconductors for Field-Effect Transistor Applications”, Macromolecules ,Volume 50, 2017 ,Page 4982-4992 . (SCI, IF=5.835)
2016
No.26
S.-T. Lu , C.-J. Cho , F.-C. Liang , B.-Y. Chen , C.-C. Kuo , “Pyrene or rhodamine derivative–modified surfaces of electrospun nanofibrous chemosensors for colorimetric and fluorescent determination of Cu2+, Hg2+, and pH”. Reactive and Functional Polymers, 2016 (accept and revision)
No.25
C.-C. Hung , C.-C. Kuo , N.-K. Weng , W.-C. Wu , B.-Y. Chen , C.-J. Cho , I.-J. Hsu , Y.-C. Chiu , and W.-C. Chen , “Novel Highly Sensitive and Reversible Electrospun Nanofiberous Chemosensor–Filters Composed of Poly(HEMA-co-MNA) and bpy-F-bpy with Metal-Ion-Modulated Multicolor Fluorescence Emission”. Polymer Journal, Volume 48, 2016 , pages439–449 .
2015
No.24
Y.-S. Huang , C.-C. Kuo , C.-C. Huang , S.-C. Jang , W.-C. Tsen , F.-S. Chuang , B.-Y. Chen , J.-J. Chen , J.-D. Chowf and Y.-C. Shug , “Novel highly aligned, double-layered, hollow fibrous polycarbonate membranes with a perfectly tightly packed pentagonal pore structure fabricated using the electrospinning process”. RSC Advances, Volume 5, 2015, Page 88857–88865 . (SCI, IF=3.840)
No.23
B.-Y. Chen , C.-C. Kuo , Y.-S. Huang , S.-T. Lu , F.-C. Liang , D.-H. Jiang, “Novel Highly Selective and Reversible Chemosensors Based on Dual Ratiometric Fluorescent Electrospun Nanofibers with pH- and Fe3+-modulated Multicolor Fluorescence Emission”. ACS Applied Materials & Interfaces, Volume 7, 2015, Page 2797-2808 . (SCI, IF= 6.723)
No.22
Y.-Y. Chen , C.-C. Kuo , B.-Y. Chen , P.-C. Chiu , and P.-C. Tsai , “Multifunctional Polyacrylonitrile-ZnO/Ag Electrospun Nanofiber Membranes with Various ZnO Morphologies for Photocatalytic, UV-shielding, and Antibacterial Applications”. Journal of Polymer Science Part B: Polymer Physics, Volume 53, 2015 ,Page 262–269 . (SCI, IF= 3.803)
2014
No.21
L.-N. Chen , C.-C. Kuo , Y.-C. Chiu , and W.-C. Chen, “Ultra Metal Ions and pH Sensing Characteristics of Thermoresponsive Luminescent Electrospun Nanofibers Prepared From Poly(HPBO-co-NIPAAm-co-SA)”. RSC Advances , Volume 4, 2014, Page 45345–45353 . (SCI, IF= 3.840)
No.20
Y.-S. Huang , C.-C. Kuo , Y.-C. Shu , S.-C. Jang , W.-C. Tsen , F.-S. Chuang , and C.-C. Chen , “Highly Aligned and Single-Layered Hollow Fibrous Membranes Prepared from Polyurethane and Silica Blends through Two-Fluid Coaxial Electrospun Process”. Macromolecular Chemistry and Physics, Volume215, 2014 ,Page 879-887 (封面文章) (SCI, IF= 2.616)
No.19
L.-N. Chen , Y.-C. Chiu , J.-J. Hung , C.-C. Kuo , and W.-C. Chen , “Multifunctional Electrospun Nanofibers Prepared fromPoly((N-isopropylacrylamide)-co-(N-hydroxymethylacrylamide)) and Their Blends with 1,2-Diaminoanthraquinone for NO Gas Detection”. Macromolecular Chemistry and Physics, Volume 215, 2014, Page 286-294 . (SCI) (SCI, IF= 2.616)
2012
No.18
Y.-C. Chiu , Y. Chen, C.-C. Kuo , S.-H. Tung, Toyoji Kakuchi,W.-C. Chen , “Synthesis, Morphology, and Sensory Applications of Multifunctional Rod−Coil−Coil Triblock Copolymers and Their Electrospun Nanofibers”. ACS Applied Materials & Interfaces, Volume 4 , July 2012 , Page 3387-3395 . (SCI, IF= 6.723)
No.17
J.-C. Lin , W.-Y. L , C.-C. Kuo, C. Li, Raffaele Mezzenga , W.-C. Chen ,“Synthesis, Morphology and Field Effect Transistor Characteristics of New Crystalline-Crystalline Diblock Copolymers of Poly(3-hexylthiophene-block-steryl acrylate)”. Journal of Polymer Science Part A-Polymer Chemistry ,Volume 50 , February 2012 ,Page686-695 . (SCI, IF= 3.113)
2011
No.16
C.-L. Liu , C.-H. Lin, C.-C. Kuo , S.-T. Lin and W.-C. Chen , “Conjugated Rod-Coil Block Copolymers: Synthesis, Morphology, Photophysical Properties, and Stimuli-Responsive Applications”. Progress in Polymer Science,Volume 36,May 2011 ,Page 603-637 . (SCI, IF=26.932)
No.15
C.-J. Lin, J.-C. Hsu, J.-H. Tsai, C.-C. Kuo, W.-Y. Lee, W.-C. Chen, “Electrospun Aligned Nanofibers Based High Performance Field Effect Transistors Prepared from Two-Dimensional Polythiophene Derivative of P4TDPP”. Macromolecular Chemistry and Physics, Volume 212, Noveber 2011 ,Page 2452-2458 . (feature on issue cover) (SCI, IF= 2.616)
No.14
Y.-C. Chiu , C.-C. Kuo , C.-J. Lin , W.-C. Chen, “Highly Ordered Luminescent Microporous Films Prepared From Crystalline Conjugated Rod - Coil Diblock Copolymers of PF - b - PSA and Their Superhydrophobic Characteristics.” Soft Matter, Volume 7, 2011 ,Page 9350-9358. (SCI, IF= 4.029)
No.13
J.-Y. Chen , C.-C. Kuo , C.-S. Lai , W.-C. Chen, and H.-L. Chen, “Manipulation on the Morphology and Electrical Properties of Poly(3-hexylthiophene) Aligned Electrospun Nanofibers For Field-Effect Transistor Applications”. Macromolecules,Volume 44, January 2011 ,Page 2883-2892 . (SCI, IF=5.800)
No.12
K.-K. H, Y.-K. Fang , J.-C. Hsu, C.-C. Kuo, and W.-C. Chen, “Synthesis, Micellar Structures, and Multifunctional Sensory Properties of Poly(3-hexylthiophene)-block-poly(2-(dimethylamino)ethyl methacrylate) Rod-Coil Diblock Copolymers”. Journal of Polymer Science Part A: Polymer Chemistry , Volume 49,January 2011, Page 147-155 . (SCI, IF=3.113)
2010
No.11
Y.-C. Chiu, C.-C. Kuo, and W.-C. Chen, “Thermo-responsive Luminescent Electrospun Fibers Prepared From Poly(DMAEMA-co-SA-co-StFl) Multifunctional Random Copolymers” ACS Applied Materials & Interfaces 11, Volume 2, November 2010, Page 3340-3347 .(SCI=6.723)
No.10
C.-C. Kuo, C.-H. Lin and W.-C. Chen, “Electrospun Nanofibers from Conjugated Rod-Coil Polyfluorene-block-Poly(2-vinylpyridine) (PF-b-P2VP)/PEO Blends”. Journal of Polymer Research (2010). (SCI, IF=1.920)
No.9
Ping Tzeng , C.-C. Kuo , S.-T. Lin , W.-C. Chen , “Novel Luminescent Electrospun Fibers Prepared From Conjugated Rod-Coil Block Copolymer Poly[2,7-(9,9-dihexylfluorene)]-block-poly(N-isopropylacrylamide)/PMMABlends: Morphology, Thermoresponsive and Photophysical Properties”. Macromolecular Chemistry and Physics, Volume 211, July 2010 , Page 1408–1416 . (SCI, IF=2.616)
No.8
C.-C. Kuo , Y.-C. Tung ,W.-C. Chen, “Morphology and pH Sensing Characteristics of New Luminescent Electrospun Fibers Prepared From Poly(phenylquinoline)-block-Polystyrene/Polystyrene Blends”. Macromolecular Rapid Communications, Volume 31 ,January 2010, Page65-70 . (SCI,IF=4.941)
2009
No.7
C.-T. Wang , C.-C. Kuo , H.-C. Chen , W.-C. Chen, “Nonwoven and aligned electrospun multicomponent luminescent polymer nanofibers: Effects of aggregated morphology on the photophysical properties”. Nanotechnology, Volume 20, October 2009, 375604. (SCI, IF=3.821)
No.6
Chi-Ching Kuo, Cheng-Ting Wang, and Wen-Chang Chen*, “Electrospun Poly(3-hexylthiophene)/Poly(methyl methacrylate) Core-Shell Fibers for Sensory Applications”. Macromolecular Symposia, Volume 279, May 2009 , Page 41–47 . (EI
2008
No.5
C.-C. Kuo , Y.-C. Tung , C.-H. Lin , W.-C. Chen, “Novel Luminescent Electrospun Fibers Prepared From Conjugated Rod-Coil Block Copolymer of Poly[2,7-(9,9-dihexylfluorene)]-block-Poly(methyl methacrylate) ”. Macromolecular Rapid Communication, Volume 29 , November 2008 , Page 1711-1715 . (SCI, IF=4.941)
No.4
C.-C. Kuo , C.-T. Wang ,W.-C. Chen , “Highly Aligned Luminescent Electrospun Nanofibers Prepared From Polyfluorene /PMMA Blends: Fabrication, Morphology, Photophysical Properties, and Sensory Applications”. Macromolecular Materials and Engineering , Volume 293,December 2008 , Page 999-1008 . (SCI, IF=2.661)
2007
No.3
C.-C. Kuo , C.-H. Lin , W.-C. Chen “Morphology and Photophysical Properties of Light-Emitting Electrospun Nanofibers Prepared from Poly(fluorene) Derivative/ PMMA Blends”. Macromolecules, Volume 40, September 2007, Page 6959-6966. (SCI, IF=5.800)
2006
No.2
S.-h. Hsu , C.-C. Kuo , S-W. Whu, C.-H. Lin , C.-L. Tasi “The effect of ultrasound stimulation versus bioreactors on neocartilage formation in tissue engineering scaffolds seeded with human chondrocytes in vitro”. Biomolecular Engineering, Volume 23, October 2006, Page 259-264. (SCI, IF=3.17)
2005
No.1
S.-H. Hsu , C.-C. Kuo , H.-J. Yen , S.-W. Whu , C.-L. Tsai , “The effect of two different bioreactors on the neocartilage formation in type II collagen modified polyester scaffolds seeded with chondrocytes”. Artificial Organs, Volume 29, June 2005 , Page 467-474. (SCI, IF=2.050)