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Note: This page's paper is Prof. Jang's paper before ANL 

(AFFILIATED AT NANOINK INC.: 2 total, 1 corresponding authored)

1. J. Haaheim, V. Val, J. Bussan, S. Rozhok, J.-W. Jang, J. Fragala, and M. Nelson: Self-leveling Two Dimensional Probe Arrays for Dip-pen Nanolithography®, SCANNING, 32, (2010) 49.

2. J.-W. Jang*, A. Smetana, and P. Stiles: Multi-ink Pattern Generation by Dip-pen Nanolithography®, SCANNING, 32, (2010) 24.

 

(AFFILIATED AT NORTHWESTERN UNIVERSITY: 14 total, 5 first authored)

1. J.-W. Jang, Z. Zheng, O.-S. Lee, W. Shim, G. Zheng, G. C. Schatz, and C. A. Mirkin: Array of Nanoscale Lenses for Subwavelength Optical Lithography, Nano Letters, 10 (2010) 4399.

2. J. K. Lim, B. Y. Lee, M. L. Pedano, A. J. Sensei, J.-W. Jang, W. Shim, S. Hong, and C. A. Mirkin: Alignment Strategies for the Assembly of Nanowires with Submicron Diameters, Small, 6, (2010) 1736.

3. L. Huang, A. B. Braunschweig, W. Shim, L. Qin, J. K. Lim, S. J. Hurst, F. Huo, C. Xue, J.-W. Jang and C. A. Mirkin: Matrix-assisted Dip-pen Nanolithography and Polymer Pen Lithography, Small, 6 (2010) 1077.

4. H. Yoo, J. E. Millstone, S. Li, J.-W. Jang, W. Wei, J. Wu, G. C. Schatz, and C. A. Mirkin: Core-shell Triangular Bifrustums, Nano Letters, 9 (2009) 3038.

5. J.-W. Jang, R. G. Sanedrin, A. J. Senesi, Z. Zheng, X. Chen, S. Hwang, L. Huang, and C. A. Mirkin: Generation of Metal Photomasks by Dip-pen nanolithography, Small, 16 (2009) 1850.

6. X. Chen, G. Zheng, J. I. Cutler, J.-W. Jang, and C. A. Mirkin: In-wire Conversion of a Metal Nanorod Segment into an Organic Semiconductor, Small, 13 (2009) 1527.

7. Z. Zheng, J.-W. Jang, G. Zheng, and C. A. Mirkin: Topographically Flat, Chemically Patterned PDMS Stamps Made by Dip-pen Nanolithography, Angewandte Chemie International Edition, 47 (2008) 9951.

8. J. K. Lim, J. W. Ciszek, F. Huo, J.-W. Jang, S. Hwang and C. A. Mirkin: Actuation of Self-Assembled Two-component Rodlike Nanostructures. Nano Letters, 8 (2008) 4441.     

9. R. G. Sanedrin, L. Huang, J.-W. Jang, J. Kakkassery, and C. A. Mirkin: Polyethylene Glycol as a Novel Resist and Sacrificial Material for Generating Positive and Negative Nanostructures, Small, 4 (2008) 920.

10. J.-W. Jang, R. G. Sanedrin, D. Maspoch, S. Hwang, T. Fujigaya, Y.-M. Jeon, R. A. Vega, X. Chen, and C. A. Mirkin: Electrically Biased Nanolithography with KOH-coated AFM Tips, Nano Letters, 8 (2008) 1451.

11. X. Chen, Y.-M. Jeon, J.-W. Jang, L. Qin, F. Huo, W. Wei, and C. A. Mirkin: On-wire Lithography-based Molecular Transport Junction: A New Test Bed for Molecular Electronics, Journal of the American Chemical Society, 130 (2008) 8166.

13. J.-W. Jang, D. Maspoch, T. Fujigaya, and C. A. Mirkin: A "Molecular Eraser" for Dip-pen Nanolithography, Small 3 (2007) 600.

14. L. Qin+, J.-W. Jang+, L. Huang, and C. A. Mirkin: Sub-5-nm Gaps Prepared by On-wire Lithography: Correlating Gap Size with Electrical Transport, Small 3, (2007) 86-90. +Authors contributed equally to this work.

 

(AFFILIATED AT KOREA UNIVERSITY: 33 total, 17 first authored)

1. K. W. Lee, K. H. Mo, J. W. Jang, N. K. Kim, W. Lee, I.-M. Kim, and C. E. Lee: Charge Transport in Low-concentration MEH-PPV Conjugated Polymer/fullerene Composites, Current Applied Physics, 9 (2009) 1315.

2. K. W. Lee, S.H. Kim, J. W. Jang, C. E. Lee, Y.J. Jo, W. Kang: Low-frequency Dielectric Response in the Quasi-one-dimensional Organic Conductor (TMTSF)2PF6, Current Applied Physics, 9 (2009) 524.

3. J. W. Jang, K. W. Lee, E. M. Lee, and C. E. Lee: Electron Paramagnetic Resonance Study of Spin–spin Correlation in Iodine-doped Poly(3-butylthiophene-2,5-dyle), Solid State Communications, 147 (2008) 293.

4. J.-W. Jang, K. W. Lee, I. H. Oh, E. M. Lee, I.-M. Kim, C. E. Lee, and C. J. Lee: Magnetic Fe Catalyst Particles in the Vapor-phase-grown Multi-walled Carbon Nanotubes, Solid State Communications, 145 (2008) 561.

5. J.-W. Jang, K. W. Lee, E. M. Lee, C. E. Lee, and C. J. Lee: Macroscopic Determination of Effective Growth Condition and Distribution of Fe Particles in the Vapor Phase Growth of Multi-walled Carbon Nanotubes, Journal of the Korean Physical Society, 52 (2008) S75.

6. E. M. Lee, J.-W. Jang, C. E. Lee, and C. J. Lee: Electrical Conduction in Individual GaN Nanowires, Journal of the Korean Physical Society, 52 (2008) S120.

7. K. W. Lee, S. P. Lee, H. Choi, K. H. Mo, J. W. Jang, H. Kweon, and C. E. Lee: Enhanced Electroluminescence in Polymer-nanotube Composites, Applied Physics Letters 91 (2007) 023110.

8. K. W. Lee, K. H. Mo, J. W. Jang, and C. E. Lee: Proton-irradiation Effect on the Luminescence of the MEH–PPV Conjugated Polymer, Solid State Communications, 141 (2007) 57.

9. S. P. Lee, H. Choi, K. W. Lee, K. H. Mo, J. W. Jang, E. Lee, I.-M. Kim, and C. E. Lee: Blending MEH-PPV Conjugate Polymers with Single-walled Carbon Nanotubes for Polymer Light-Emitting Diodes, Journal of the Korean Physical Society, 48 (2006) 146.

10. J. W. Jang, C. E. Lee, T. J. Lee, S. C. Lyu, and C. J. Lee: Lateral Force Microscopy of Bamboo-Shaped Multiwalled Carbon Nanotubes, Current Applied Physics, 6 (2006) 141.

11. S. H. Kim, K. W. Lee, J. W. Jang, C. E. Lee, K-S. Lee, and S.J. Noh: Study of the Proton-beam Irradiation Effects on TlH2PO4, Current Applied Physics, 6 (2006) 182.

12. S. H. Kim, K. W. Lee, J. W. Jang, C. E. Lee, J. Y. Choi, K-S. Lee, and J. Kim: Proton-beam Irradiation Effect in TlH2PO4, Physical Review B, 72 (2005) 214107.

13. J. W. Jang, C. E. Lee and C. J. Lee: Hydrogen Storage Capacity of Different Carbon Nanostructures in Ambient Conditions, Journal of Applied Physics, 98 (2005) 074316.

14. J. W. Jang, C. E. Lee and C. J. Lee: Mechanical Cutting of Bamboo-shaped Multiwalled Carbon Nanotubes by an Atomic Force Microscope Tip, Solid State Communications, 135 (2005) 683.

15. S. H. Kim, K. W. Lee, J. W. Jang, C. E. Lee, Y. H. Jo, S. G. Lee and K-S. Lee: Electron Paramagnetic Resonance Study of Proton-beam-irradiated TlH2PO4, Journal of the Korean Physical Society, 47 (2005) 263.

16. K. W. Lee, K. H. Mo, J. W. Jang, and C. E. Lee: Photoluminescence Study of the Proton-irradiated MEH-PPV Conjugated Polymer, Journal of the Korean Physical Society, 47 (2005) 130.

17. P. Toman, S. Nespupek, J. W. Jang, and C. E. Lee: Oligo[methyl(phenyl)silane] ion-radical conformations calculated by the B3LYP method, International Journal of Quantum Chemistry, 101 (2005) 746-752.

18. M. H. Park, J. W. Jang, C. E. Lee, and C. J. Lee: Interwall Support in Double-walled Carbon Nanotubes Studied by Scanning Tunneling Microscopy, Applied Physics Letters, 86 (2005) 023110.

19. J. W. Jang, K. W. Lee, and C. E. Lee: In Situ Electron Paramagnetic Resonance Study of Spin Dynamics in an Iodine-doped Poly(thiophene) Derivative, Solid State Communications, 131 (2004) 697.

20. J. W. Jang, K. W. Lee, C. E. Lee, S. C. Lyu, T. J. Lee and C. J. Lee: Magnetic properties of Fe catalysts included in carbon nanotubes, Physca Status Solidi B, 241 (2004) 1605.

21. J. W. Jang, C. E. Lee, S. C. Lyu, T. J. Lee C. J. Lee: Structural Study of Nitrogen-doping Effects in Bamboo-shaped Multiwalled Carbon Nanotubes, Applied Physics Letters, 84 (2004) 2877.

22. J. W. Jang, C. E. Lee, D. W. Lee, and J. -I. Jin: Transient Electroluminescence Study of Mobility Balancing in Organic Light-Emitting Diodes Based on Poly(p-phenylenevinylene) Derivatives, Solid State Communications, 130 (2004) 265.

23. S. H. Kim, J. W. Jang, K. W. Lee, C. E. Lee, and S. W. Kim: Impedance Spectroscopy of a Poly(p-phenylenevinylene)-based Light-emitting Diode Device, Solid State Communications, 128 (2003) 143. 

24. J. W. Jang, C. E. Lee, T. J. Lee, C. J. Lee, and S. J. Noh: Atomic Force Microscopy of Bamboo-shaped Multiwalled Carbon Nanotube Structures, Solid State Communications, 127 (2003) 29.

25. J. W. Jang, S. H. Kim, C. E. Lee, T. J. Lee, C. J. Lee, H. S. Kim, E. H. Kim, and S. J. Noh: Conduction Mechanism of the Bamboo-Shaped Multiwalled Carbon Nanotubes, Journal of the Korean Physical Society, 42 (2003) S985.

26. K. Kim, Y. Park, C. E. Lee, J. W. Jang, and J-I. Jin: Formation of Intragap States and Achieving Balance in Carrier Mobilities for a PPV Derivative Bearing the Cabazole Pendants, Macromolecular Symposia, 192 (2003) 183.

27. P. Toman, S. Nespupek, J. W. Jang, and C. E. Lee: Conformation Changes of Polysilanes During the Polaron Formation, Current Applied Physics, 2 (2002) 327.

28. J. W. Jang, C. E. Lee, T. J. Lee, C. J. Lee, and S. J. Noh: Growth-temperature Induced Metal-insulator Transition in Bamboo-shaped Multiwalled Carbon Nanotubes, Solid State Communications, 124 (2002) 147.

29. J. W. Jang, C. E. Lee, T. J. Lee, C. J. Lee, and S. J. Noh: Metallic Conductivity in Bamboo-shaped Multiwalled Carbon Nanotubes, Solid State Communications, 122 (2002) 619.

30. C. E. Lee, J. W. Jang, H. M. Lee, D. K. Oh, C. H. Lee, D. W. Lee, and J.-I. Jin: Charge-carrier Mobilities and Charge Conduction in a Poly (p-phenylenevinylene) Derivative Carrying an Electron-transporting Moiety, Current Applied Physics, 1 (2001) 107. 

31. J. W. Jang, D. K. Oh, C. H. Lee, C. E. Lee, D. W. Lee, and J,-I. Jin: Study of Charge Conduction in a Poly(p-phenylenevinylene) Derivative Carrying an Electron-transporting Moiety, Synthetic Metals, 119 (2001) 475.

32. J. W. Jang, D. K. Oh, C. H. Lee, C. E. Lee, K. K. Kim, and J-I. Jin: Transient Electroluminescence Study of Enhanced Recombination Mobility in a Bilayer Organic Light-Emitting Diode, Journal of the Korean Physical Society, 38 (2001) L1.

33. J. W. Jang, D. K. Oh, C. H. Lee, C. E. Lee, D. W, Lee, and J-I. Jin: Mechanism of Enhanced Quantum Efficiency in Light-Emitting Diode Based on Poly(p-phenylenevinylene) Derivative, Journal of Applied Physics, 87 3183 (2000).

 

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