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International Journal

2014

[40]

K. Kim, T. Ahn, J. Kim, Y. J. Jeong, J. Jang, H. Kim, J. Y. Baek, Y.-H. Kim, S. H. Kim, C. E. Park,

“Grafting Fluorinated Polymer Nanolayer for Advancing the Electrical Stability of Organic Field-Effect Transistors”, Chem. Mater., 26, 6467-6476 (2014).

[39]

J. Kim,** J. Jang,** K. Kim, H. Kim, S. H. Kim, and C. E. Park,

“The origin of excellent gate-bias stress stability in organic field-effect transistors employing fluorinated-polymer gate dielectrics”, Adv. Mater. 26, 7241-7246 (2014) (**co-first author).

Highlight : the issue's Back Cover Article

[38]

W. M. Yun, J. Jang, S. Nam, C. E. Park, S. H. Kim, and D. S. Chung,

“Organic light-emitting diodes with low turn-on voltages and improved stability featuring a PTCDI-C13:CuPc mixed hole injection layer”, Sci. Adv. Mater. 6, 1676-1680 (2014).

[37]

H. Zhang, J. Jang, W. Liu, and D. V. Talapin,

Colloidal nanocrystals with inorganic halide, pseudohalide, and halometallate Ligands, ACS Nano, 8, 7359-7369 (2014).

[36]

J. S. Son, H. Zhang, J. Jang, B. Poudel, A. Waring, L. Nally, and D. V. Talapin,

“All-Inorganic Nanocrystals as a Glue for BiSbTe Grains: Design of Interfaces in Mesostructured Thermoelectric Materials”, 

Angew. Chem. Int. Ed. 53, 7466-7470 (2014).

[35]

I. H. Jung, W.-Y. Lo, J. Jang, W. Chen, D. Zhao, E. S. Landry, T. Xu, D. V. Talapin, L. Yu,

“Synthesis and search for design principles of new electron accepting polymers for all-polymer solar cells”, Chem. Mater. 26, 3450-3459 (2014).

[34]

Y. J. Jeong, J. Jang, S. Nam, K. Kim, L. H. Kim, S. Park, T. K. An, and C. E. Park,

“High-performance organic complementary inverters using monolayer graphene electrodes”, ACS Appl. Mater. Interfaces, 6, 6816-6824 (2014).

[33]

J. Jang, W. Liu, J. S. Son, and D. V. Talapin,

“Temperature-dependent Hall and field-effect mobility in strongly coupled all-inorganic nanocrystal arrays”, Nano Lett., 14, 653-662 (2014).

2013

[32]

H. Zhang, J. S. Son, J. Jang, J.-S. Lee, W.-L. Ong, J. A. Malen, and D. V. Talapin,

“Bi1-xSbx alloy nanocrystals: colloidal synthesis, charge transport and thermoelectric properties”, ACS. Nano, 7, 10296-10306 (2013).

[31]

J. Jang, J. Park, S. Nam, J. E. Anthony, Y. Kim, K. S. Kim, B. H. Hong, K. S. Kim, and C. E. Park,

“Self-Organizing Properties of Triethylsilylethynyl-Anthradithiophene on Monolayer Graphene Electrodes in Solution-Processed Transistors”, Nanoscale, 5, 11094-11101 (2013).

 

Highlight :  selected as "This Week's Hot Article"

[30]

T. K. An, S. H. Jang, S.-O. Kim, J. Jang, J. Hwang, H. Cha, Y. R. Noh, S. B. Yoon, Y. J. Yoon, L. H. Kim, D. S. Chung, S. K. Kwon, Y.-H. Kim, S.-G. Lee, and C. E. Park,

“Synthesis and transistor properties of asymmetric oligothiophenes: relationship between molecular structure and device performance”, Chem. Eur. J., 19, 14052-14060 (2013).

[29]

S. Park, S. Nam, J. Hwang, J. Jang, T. K. An, J. Kim, Y. Kim, S. H. Kim, D. S. Chung, and C. E. Park,

“Facile method for the environmentally friendly fabrication of reduced graphene oxide films assisted by a metal substrate and saline solution”, RSC. Adv., 3, 14286-14289 (2013).

[28]

T. K. An, S.-M. Park, S. Nam, J. Hwang, S.-J. Yoo, M.-J. Lee, W. M. Yun, J. Jang, H. Cha, J. Hwang, S. Park, J. Kim, D. S. Chung, Y.-H. Kim, S.-K. Kwon, and C. E. Park,

“Thin film morphology control via a mixed solvent system for high-performance organic thin film transistors”, Sci. Adv. Mater., 5, 1323-1327 (2013).

[27]

S. Nam,** J. Jang,** J. E. Anthony, J.-J. Park, C. E. Park, and K. Kim,

“High-performance triethylsilylethynyl anthradithiophene transistors prepared without solvent vapor annealing: the effects of self-assembly during dip-coating”, ACS. Appl. Mater. Interfaces, 5, 2146-2154 (2013). (**co-first author)

2012

[26]

S. Park, S. Nam, L. H. Kim, M. Park, J. Kim, T. K. An, W. M. Yun, J. Jang, J. Hwang, and C. E. Park,

“Synthesis and characterization of a fluorinated oligosiloxane-containing encapsulation material for organic field-effect transistors, prepared via a non-hydrolytic sol–gel process”, Org. Electron., 13, 2786-2792 (2012).

[25]

W. M. Yun, J. Jang, S. Nam, Y. J. Jeong, L. H. Kim, S. Park, S. J. Seo, and C. E. Park,

"Vacuum thermally evaporated polymeric zinc acrylate as an organic interlayer of organic/inorganic multilayer passivation for flexible organic thin-film transistors", J. Mater. Chem., 22, 25395-25401 (2012).

[24]

W. M. Yun, J. Jang, S. Nam, L. H. Kim, S. J. Seo, and C. E. Park

"Thermally evaporated SiO thin films as a versatile interlayer for plasma-based OLED passivation", ACS Appl. Mater. Interfaces, 4, 3247-3253 (2012).

[23]

S. Nam,** J. Jang,** H. Cha, J. Hwang, T. K. An, S. Park, and C. E. Park,

“Effects of direct solvent exposure on nanoscale morphologies and electrical characteristics of PCBM-based transistors and photovoltaics”, J. Mater. Chem., 22, 5543-5549 (2012). (**co-first author)

[22]

J. Jang, S. Nam, K. Im, J. Hur, S. N. Cha, J. Kim, H. B. Son, H. Suh, M. A. Loth, J. E. Anthony, J.-J. Park, C. E. Park, J. M. Kim, and K. Kim,

“Highly crystalline soluble acene crystal arrays for organic transistors: mechanism of crystal growth during dip-coating”, Adv. Funct. Mater., 22, 1005-1014 (2012).

[21]

M. Park,** J. Jang,** S. Park, J. Kim, J. Seong, J. Hwang, and C. E. Park,

“The effects of organic material-treated SiO2 dielectric surfaces on the electrical characteristics of inorganic amorphous In-Ga-Zn-O thin film transistors”, Appl. Phys. Lett., 100, 102110 (2012). (**co-first author)

[20]

S. Nam,** J. Jang,** J.-J. Park, S. W. Kim, C. E. Park, and J. M. Kim,

“High-performance low-voltage organic field-effect transistors prepared on electro-polished aluminium wires”, ACS Appl. Mater. Interfaces, 4, 6-10 (2012). (**co-first author)

[19]

J. Jang, S. Nam, J. Hwang, J.-J. Park, J. Im, C. E. Park, and J. M. Kim,

“Photocurable polymer gate dielectrics for cylindrical organic field-effect transistors with high bending stability”, J. Mater. Chem., 22, 1054-1060 (2012).

2011

[18]

J. Jang, S. Nam, W. M. Yun, C. Yang, J. Hwang, T. K. An, D. S. Chung, and C. E. Park,

"High Tg cyclic olefin copolymer/Al2O3 bilayer gate dielectrics for flexible organic complementary circuits with low-voltage and air-stable operation", J. Mater. Chem., 21, 12542-12546 (2011).

[17]

S. Nam, J. Jang, K. Kim, W. M. Yun, D. S. Chung, J. Hwang, O. K. Kwon, T. Chang, and C. E. Park

"Solvent-free solution processed passivation layer for improved long-term stability of organic field-effect transistors", J. Mater. Chem., 21, 775-780 (2011).

[16]

J. Hwang, J. Jang, K. Hong, K. N. Kim, J. H. Han, K. W. Shin, and C. E. Park

"Poly(3-hexylthiophene) wrapped carbon nanotube/poly(dimethylsiloxane) composites for use in finger-sensing piezoresistive pressure sensors", Carbon, 49, 106-110 (2011).

[15]

K. Hong, S. H. Kim, C. Yang, W. M. Yun, S. Nam, J. Jang, C. Park, and C.E. Park,

"Photopatternable poly(4-styrene sulfonic acid)-wrapped MWNT thin-film source/drain electrodes for use in organic field-effect transistors", ACS Appl. Mater. Interfaces, 3, 74-79 (2011).

[14]

D.-J. Yun, K. Hong, S. H. Kim, C. Yang, W. M. Yun, J. Jang, W.-S. Kwon, C. E. Park, and S.-W. Rhee,

"Multiwall carbon nanotube and poly(3,4-ethylenedioxythiophene): polystyrene sulfonate (PEDOT:PSS) composite films for transistor and inverter devices", ACS Appl. Mater. Interfaces, 3, 43-49 (2011).

2010

[13]

S. H. Kim, K. Hong, M. Jang, J. Jang, J. E. Anthony, H. Yang, and Chan Eon Park,

"Photo-curable polymer blend dielectrics for advancing organic field-effect transistor applications", Adv. Mater., 22, 4809-4813, (2010).

[12]

K. Hong, S. H. Kim, C. Yang, J. Jang, H. Cha, and C. E. Park,

"Improved n-type bottom-contact organic transistors by introducing a poly(3,4-ethylenedioxythiophene):poly(4-styrene sulfonate) coating on the source/drain electrodes" Appl. Phys. Lett., 97, 103304 (2010).

[11]

J. Jang, S. Nam, D. S. Chung, S. H. Kim, W. M. Yun, and C. E. Park,

"High Tg Cyclic Olefin Copolymer Gate Dielectrics for N,N’-Ditridecyl Perylene Diimide-Based Field-Effect Transistors: Improving Performance and Stability with Thermal Treatment", Adv. Funct. Mater., 20, 2611-2618, (2010). 

Highlight : the issue's Front Cover Article

[10]

S. Nam, D. S. Chung, J. Jang, S. H. Kim, C. Yang, S.-K. Kwon, and C. E. Park

"Effects of poor solvent for solution-processing passivation of organic field effect transistors", J. electrochem. Soc., 157, H90-H93 (2010).

2009

[9]

K. Hong, C. Yang, S. H. Kim, J. Jang, S. Nam, and C. E. Park,

"Photopatternable source/drain electrodes using multiwalled carbon nanotube/polymer nanocomposites for organic field-effect transistors" ACS Appl. Mater. Interfaces, 10, 2332-2337 (2009).

[8]

C. Yang, K. Hong, J. Jang, D. S. Chung, T. K. An, W.-S. Choi, and C. E. Park,

“Solution-processed flexible ZnO transparent thin-film transistors with a polymer gate dielectric fabricated by microwave heating", Nanotechnology, 20, 465201 (2009).

[7]

D. S. Chung, D. H. Lee, J. W. Park, J. Jang, S. Nam, Y.-H. Kim, S.-K. Kwon, and C. E. Park,

"Phase-separated polydimethylsiloxane as a dielectric surface treatment layer for organic field effect transistors", Org. Electron., 10, 1041-1047 (2009).

[6]

J. Jang, S. H. Kim, J. Hwang, S. Nam, C. Yang, D. S. Chung, and C. E. Park,

"Photopatternable ultrathin gate dielectrics for low-voltage-operating organic circuits", Appl. Phys. Lett., 95, 073302 (2009).

[5]

S. H. Kim, S. Nam, J. Jang, K. Hong, C. Yang, D. S. Chung, C. E. Park, and W.-S. Choi,

“Effect of the hydrophobicity and thickness of polymer gate dielectrics on the hysteresis behavior of pentacene-based field-effect transistors", J. Appl. Phys., 105, 104509 (2009).

[4]

S. Nam, H. Jeon, S. H. Kim, J. Jang, C. Yang, and C. E. Park, “An inkjet-printed passivation layer based on a photocrosslinkable polymer for long-term stable pentacene field-effect transistors”, Org. Electron., 10, 67-72 (2009).

2008

[3]

S. H. Kim, D. Choi, D. S. Chung, C. Yang, J. Jang, C. E. Park, and S.-H. K. Park,

“High-performance solution-processed triisopropylsilylethynyl pentacene transistors and inverters fabricated by using the selective self-organization technique”, Appl. Phys. Lett., 93, 113306 (2008).

[2]

S. H. Kim, J. Jang, H. Jeon, W. M. Yun, S. Nam, and C. E. Park,

“Hysteresis-free pentacene field-effect transistors and inverters containing poly(4-vinyl phenol-co-methyl methacrylate) gate dielectrics”, Appl. Phys. Lett., 92, 183306 (2008).

[1]

J. Jang, S. H. Kim, S. Nam, D. S. Chung, C. Yang, W. M. Yun, and C. E. Park,

"Hysteresis-free organic field-effect transistors and inverters using photocrosslinkable poly(vinyl cinnamate) as a gate dielectric", Appl. Phys. Lett., 92, 143306 (2008).

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