The complete list of papers and publications of Prof. Suh. The highlighted papers are linked in the original websites.
39. “Electrically, Chemically, and Photonically Powered Torsional and Tensile Actuation of Hybrid Carbon Nanotube Yarn Muscles”
M. D. Lima, Na Li, M. J. de Andrade, S. Fang, J. Oh, G. M. Spinks, M. E. Kozlov, C. S. Haines, Dongseok Suh, J. Foroughi, S. J. Kim, Y. Chen, T. Ware, M. K. Shin, L. D. Machado, A. F. Fonseca, J. D. W. Madden, W. E. Voit, D. S. Galvão, R. H. Baughman,
Science 338 (6109), pp 928-932 (2012)
2012.11.16.-- [CNT]
https://doi.org/10.1126/science.1226762
38. “Pulse-Programming Instabilities of Unipolar-Type NiOx”,
Deok-Kee Kim, Dong-Seok Suh, Jucheol Park,
IEEE Elec. Dev. Lett. 31 (6), 600-602 (2010)
2010.04.15 [RRAM]; Corresponding Author
37. “Thermoelectric heating of Ge2Sb2Te5 in phase change memory devices”
Dong-Seok Suh, Cheolkyu Kim, Kijoon H. P. Kim, Youn-Seon Kang, Tae-Yon Lee, Yoonho Khang, Tae Sang Park, Young-Gui Yoon, Jino Im, Jisoon Ihm,
Applied Physics Letters 96, 123115 (2010)
2010.03.26. --[PRAM]; First Author
https://doi.org/10.1063/1.3259649
36. “Electronic structure of (Ge2Sb2Te5)1−x(In3SbTe2)x investigated by x-ray photoelectron spectroscopy”,
A. Benayad, Y.-S. Kang, H.-J. Shin, K. Kim, Dong-Seok Suh, K. H. P. Kim, C. Kim, T.-Y. Lee, J.-S. Noh, J. Lee, Y. Khang,
J. Appl. Phys. 106, 043701 (2009)
2009.08.17 [PRAM]
35. “Low thermal conductivity in Ge2Sb2Te5–SiOx for phase change memory devices”,
T.-Y. Lee, K. H. P. Kim, Dong-Seok Suh, C. Kim, Y.-S. Kang, D. G. Cahill, D. Lee, M.-H. Lee, M.-H. Kwon, K.-B. Kim, Y. Khang,
Appl. Phys. Lett. 94, 243103 (2009)
2009.06.15 [PRAM]; First Author
34. “Electrochemically Tuned Properties for Electrolyte-Free Carbon Nanotube Sheets”,
Alexander A. Zakhidov, Dong-Seok Suh, Alexander A. Kuznetsov, Joseph N. Barisci, Edgar Muñoz, Alan B. Dalton, Steve Collins, Von H. Ebron, Mei Zhang, John P. Ferraris, Anvar A. Zakhidov, Ray H. Baughman,
Advanced Functional Materials 19 (14), 2266 (2009)
2009.05.22 [CNT]
33. “Hierarchical structure and phase transition of (GeTe)n(Sb2Te3)m used for phase-change memory”,
J. Im, J.-H. Eom, C. Park, K. Park, Dong-Seok Suh, K. H. P. Kim, Y.-S. Kang, C. Kim, T.-Y. Lee, Y. Khang, Y.-G. Yoon, J. Ihm,
Phys. Rev. B 78, 205205 (2008)
2008.11.21 [PRAM]
32. “Optical properties of (GeTe, Sb2Te3) pseudobinary thin films studied with spectroscopic ellipsometry”,
J.-W. Park, S. H. Baek, T. D. Kang, H. Lee, Y.-S. Kang, T.-Y. Lee, Dong-Seok Suh, K. H. P. Kim, C. Kim, Y. Khang, J. L. F. Da Silva, S.-H. Wei,
Appl. Phys. Lett. 93, 021914 (2008)
2008.07.17 [PRAM]
31. “Effect of indium on phase-change characteristics and local chemical states of In–Ge–Sb–Te alloys”,
H. J. Shin, Y.-S. Kang, A. Benayad, K.-H. Kim, Y. M. Lee, M.-C. Jung, T.-Y. Lee, Dong-Seok Suh, K. H. P. Kim, C. Kim, Y. Khang,
Appl. Phys. Lett. 93, 021905 (2008)
2008.07.15 [PRAM]
30. “Rapid crystallization of GeTe–Bi2Te3 mixed layer”,
T.-Y. Lee, C. Kim, Y.-S. Kang, Dong-Seok Suh, K. H. P. Kim, Y. Khang,
Appl. Phys. Lett. 92, 101908 (2008)
2008.03.11 [PRAM]
29. “Write Current Reduction in Transition Metal Oxide Based Resistance Change Memory”,
S.-E. Ahn, M.-J. Lee, Y. Park, B. S. Kang, C. B. Lee, K. H. Kim, S. Seo, D.-S. Suh, D.-C. Kim, J. Hur, W. Xianyu, G. Stefanovich, H. Yin, I.-K. Yoo, J.-H. Lee, J.-B. Park, I.-G. Baek , B. H. Park,
Advanced Materials 20 (5), 924 (2008)
2008.02.05 [RRAM]
28. “Fullerene thermal insulation for phase change memory”,
C. Kim, Dong-Seok Suh, K. H. P. Kim, Y.-S. Kang, T.-Y. Lee, and Y. Khang, D. G. Cahill,
Appl. Phys. Lett. 92, 013109 (2008)
2008.01.03 [PRAM]
27. “Valence band structures of the phase change material Ge2Sb2Te5”,
D. Lee, S. S. Lee, W. Kim, C. Hwang, M. B. Hossain, N. Le Hung, H. Kim, C. G. Kim, H. Lee, H. N. Hwang, C.-C. Hwang, T.-Y. Lee, Y.-S. Kang, C. Kim, Dong-Seok Suh, K. H. P. Kim, Y. Khang,
Appl. Phys. Lett. 91, 251901 (2007)
2007.12.17 [PRAM]
26. “Two Series Oxide Resistors Applicable to High Speed and High Density Nonvolatile Memory”,
M.-J. Lee, Y. Park, D.-S. Suh, E.-H. Lee, S. Seo, D.-C. Kim, R. Jung, B.-S. Kang, S.-E. Ahn, C. B. Lee, D. H. Seo, Y.-K. Cha, I.-K. Yoo, J.-S. Kim, B. H. Park,
Advanced Materials 19 (22), 3919 (2007)
2007.11.15 [RRAM]
25. “Nonvolatile switching characteristics of laser-ablated Ge2Sb2Te5 nanoparticles for phase-change memory applications”
Dong-Seok Suh, E. Lee, K. H. P. Kim, J.-S. Noh, W.-C. Shin, Y.-S. Kang, C. Kim, and Y. Khang, H. R. Yoon, W. Jo,
Applied Physics Letters. 90, 023101 (2007)
2007.01.08.-- [PRAM]
https://doi.org/10.1063/1.2430481
24. “Critical Quenching Speed Determining Phase of Ge2Sb2Te5 in Phase-Change Memory”
Suh, D.-S.; Kim, K.H.P.; Noh, J.-S.; Shin, W.-C.; Kang, Y.-S.; Kim, C.; Khang, Y.; Yoo, I.K.,
IEDM Technical Digest 2006, pp. 773–776
2006.12.11; International Electron Devices Meeting, 2006 --[PRAM]
https://doi.org/10.1109/IEDM.2006.346909
23. “Global and local structures of the Ge-Sb-Te ternary alloy system for a phase-change memory , device”,
J.-H. Eom, Y.-G. Yoon, C. Park, H. Lee, J. Im, Dong-Seok Suh, J.-S. Noh, Y. Khang, J. Ihm,
Phys. Rev. B 73, 214202 (2006)
2006.06.06 [PRAM]
22. “Electrical observations of filamentary conductions for the resistive memory switching in NiO films”,
D. C. Kim, S. Seo, S. E. Ahn, D.-S. Suh, M. J. Lee, B.-H. Park, I. K. Yoo, I. G. Baek, H.-J. Kim, E. K. Yim, J. E. Lee, S. O. Park, H. S. Kim, U-In Chung, J. T. Moon, B. I. Ryu,
Appl. Phys. Lett. 88, 202102 (2006)
2006.05.15 [RRAM]
21. “Flexible vapour sensors using single walled carbon nanotubes”,
Kunjal Parikh, Kyle Cattanach, Rashmi Rao, Dong-Seok Suh, Aimei Wu and Sanjeev K. Manohar,
Sensors and Actuators B: Chemical 113 (1), 55 (2006)
2006.01.17 [CNT]
20. “Highly Conducting Carbon Nanotube/Polyethyleneimine Composite Fibers”,
E. Muñoz, D.-S. Suh, S. Collins, M. Selvidge, A. B. Dalton, B. G. Kim, J. M. Razal, G. Ussery, A. G. Rinzler, M. T. Martínez, R. H. Baughman,
Advanced Materials 17 (8), 1064 (2005)
2005.04.07 [CNT]
19. “Conductivity switching characteristics and reset currents in NiO films”,
S. Seo, M. J. Lee, D. H. Seo, S. K. Choi, D.-S. Suh, Y. S. Joung, I. K. Yoo, I. S. Byun, I. R. Hwang, S. H. Kim, B. H. Park,
Appl. Phys. Lett. 86, 093509 (2005)
2005.02.25 [RRAM]
18. “Highly scalable nonvolatile resistive memory using simple binary oxide driven by asymmetric unipolar voltage pulses”,
Baek, I.G.; Lee, M.S.; Seo, S.; Lee, M.J.; Seo, D.H.; Suh, D.-S.; Park, J.C.; Park, S.O.; Kim, H.S.; Yoo, I.K.; Chung, U.-In.; Moon, J.T.,
IEDM Technical Digest 2004, pp. 587–590
2004.12.13; International Electron Devices Meeting, 2004 [RRAM]
17. “Reproducible resistance switching in polycrystalline NiO films”,
S. Seo, M. J. Lee, D. H. Seo, E. J. Jeoung, D.-S. Suh, Y. S. Joung, I. K. Yoo, I. R. Hwang, S. H. Kim, I. S. Byun, J.-S. Kim, J. S. Choi, B. H. Park,
Appl. Phys. Lett. 85, 5655 (2004)
2004.12.06 [RRAM]
16. “Fabrication and Characterization of Thin Films of Single-Walled Carbon Nanotube Bundles on , Flexible Plastic Substrates”,
Neerja Saran, Kunjal Parikh, Dong-Seok Suh, Edgar Muñoz, Harsha Kolla, Sanjeev K. Manohar,
J. Am. Chem. Soc. 126 (14), 4462 (2004)
2004.03.23 [CNT]
15. “X-ray absorption near-edge structure spectra Study of the Ba1-xKxBiO3 (0.37<x<1.0) superconductor”,
A. N. Baranov, J. S. Kim, D. C. Kim, D. S. Suh, Y. W. Park, E. V. Antipov,
Physica C: Superconductivity 383, 95 (2002)
2002.12.01; ETC
14. “Evidence of magnetoresistance for nanojunction-controlled transport in heavily doped polyacetylene”,
V. I. Kozub, A. N. Aleshin, D.-S. Suh, and Y. W. Park,
Phys. Rev. B 65, 224204 (2002)
2002.05.21 [Polyacetylene]
13. “Linear high-field magnetoconductivity of doped polyacetylene up to 30 Tesla”,
D.-S. Suh, J. G. Park, J. S. Kim, D. C. Kim, T. J. Kim, A. N. Aleshin, and Y. W. Park,
Phys. Rev. B 65, 165210 (2002)
2002.04.05 [Polyacetylene]
12. “Low-temperature saturation of dephasing in heavily doped polyacetylene”,
A. N. Aleshin, V. I. Kozub, D.-S. Suh, and Y. W. Park,
Phys. Rev. B 64, 224208 (2001)
2001.11.21 [Polyacetylene]
11. “The influence of low-energy excitations on the metallic conductivity of perchlorate doped polyacetylene”,
A. N. Aleshin, D.-S. Suh, Y. W. Park,
Physica B: Cond. Matter 305 (3-4), 197 (2001)
2001.11.01 [Polyacetylene]
10. “Effects of pressure and magnetic field on the low-temperature conductivity of FeCl4–-doped polyacetylene: The influence of scattering by low-energy excitations”,
A. N. Aleshin, T. J. Kim, D.-S. Suh, Y. W. Park, H. Kang, W. Kang,
Phys. Rev. B 63, 235209 (2001)
2001.05.31 [Polyacetylene]
9. “Helical polyacetylene heavily doped with iodine: Magnetotransport”,
D.-S. Suh, T. J. Kim, A. N. Aleshin, Y. W. Park, G. Piao, K. Akagi, H. Shirakawa, J. S. Qualls, S. Y. Han, and J. S. Brooks,
J. Chem. Phys. 114, 7222 (2001)
2001.04.22 [Polyacetylene]
8. “Quantum transport in AuCl3 doped polyacetylene studied by ESR”,
A. Bartl, L. Dunsch, Y. W. Park, E. S. Choi, D. S. Suh,
Synth. Met. 117, 21 (2001)
2001.02.15 [Polyacetylene]
7. “Role of the metal in contacting Single-Walled Carbon Nanotubes”,
V. Krstic, G. T. Kim, J. G. Park, D. S. Suh, Y. W. Park, S. Roth, M. Burghard,
AIP Conf. Proc. 544, 367 (2000)
2000.11.21 [CNT]
6. “Conductivity and magnetoresistance of polyacetylene fiber network”,
G. T. Kim, M. Burghard, D. S. Suh, K. Liu, J. G. Park, S. Roth, Y. W. Park,
Synth. Met. 105, 207 (1999)
1999.09.15 [Polyacetylene]
5. “EXAFS studies of the AuCl3 doped polyacetylene”,
D. S. Suh, E. S. Choi, J. G. Park, S. B. Lee and Y. W. Park, J. M. Lee,
Synth. Met. 101, 498 (1999)
1999.05.01; International Conference on Science and Technology of Synthetic Metals [Polyacetylene]
4. “Magnetoresistance of the metallic polyacetylene”,
E. S. Choi, G. T. Kim, D. S. Suh, D. C. Kim, J. G. Park, Y. W. Park,
Synth. Met. 100, 3 (1999)
1999.03.26 [Polyacetylene]
3. “Magnetoresistance of an entangled single-wall carbon-nanotube network”,
G. T. Kim, E. S. Choi, D. C. Kim, D. S. Suh, Y. W. Park, K. Liu, G. Duesberg, S. Roth,
Phys. Rev. B 58, 16064 (1998)
1998.12.15 [CNT]
2. “Simple technique for the simultaneous measurements of the four-probe resistivity and the thermoelectric power”,
G. T. Kim, J. G. Park, J. Y. Lee, H. Y. Yu, E. S. Choi, D. S. Suh, Y. S. Ha, and Y. W. Park,
Rev. Sci. Instrum. 69, 3705 (1998)
1998.10.01; [ETC]
1. “Metallic temperature dependence of resistivity in perchlorate doped polyacetylene“,
Y. W. Park, E. S. Choi, D. S. Suh,
Synth. Met. 96, 81 (1998)
1998.07.15 [Polyacetylene]