Publications

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2015    
231 S. Y. Chou, "Special Issue: Nanoimprint Lithography: 20 years Foreword," DOI: 10.1007/s00339-015-9501-9 App. Phys. A 121 (2) 317-318 (2015).
230 H. Chen, Q. Zhang, and S. Y. Chou, “Patterning of light-extraction nanostructures on sapphire substrates using nanoimprint and ICP etching with different masking materials,” Nanotechnology 26 (8) DOI: 10.1088/0957-4484/26/8/085302 (2015).
2014    
229 W. Ding, Y. Wang, H. Chen, and S. Y. Chou, "Plasmonic Nanocavity Organic Light-Emitting Diode with Significantly Enhanced Light Extraction, Contrast, Viewing Angle, Brightness, and Low-Glare," DOI: 10.1002/adfm.201400964, Adv. Funct. Mater. (2014). 227
228 W. Ding, L. Zhou, and S. Y. Chou, "Enhancement and Electric Charge-Assisted Tuning of Nonlinear Light Generation in Bipolar Plasmonics," DOI: 10.1021/nl5008294 Nano Lett. 14, 2822-2830 (2014). 227
227 C. Wang, Q. Zhang, Y. Song, and S. Y. Chou, "Plasmonic Bar-Coupled Dots-on-Pillar Cavity Antenna with Dual Resonances for Infrared Absorption and Sensing: Performance and Nanoimprint Fabrication," ACS Nano 8 (3) 2618-2624 (2014). 227
2013    
226 S. Y. Chou and W. Ding, "Ultrathin, high-efficiency, broad-band, omni-acceptance, organic solar cells enhanced by plasmonic cavity with subwavelength hole array," Optics Express 21 (1) A60–A76 (2013). 226
225 C. J. Smith, WD Li, G. Wysocki, and S.Y. Chou, “Electric current tuning the self-oscillation frequency of EC-VCSELs,” IEEE Photonics Tech Lett. 25 (17) 1707-1710 (2013) 225
2012    
224 S. Y. Chou and W. Ding, "Ultrathin, high-efficiency, broad-band, omni-acceptance, organic solar cells enhanced by plasmonic cavity with subwavelength hole array ," Optics Express 21, S1, A60–A76 (2013), published 28 Nov (2012). 224
223 W. D. Li, X. Liang, and S. Y. Chou, “Nanoscale negative-tone quantized patterning by novel selective electrochemical etching of a nanoimprinted sub-200 nm bimetallic tile array,” Nanotechnology 23 (35) 355303 (2012). 223
222 C. Wang and S. Y. Chou, "Integration of metallic nanostructures in fluidic channels for fluorescence and Raman enhancement by nanoimprint lithography and lift-off on compositional resist stack," Microelec. Eng. 98, 693-697 (2012). 222
221 W. Zhang, F. Ding, and S. Y. Chou, "Large Enhancement of Upconversion Luminescence of NaYF 4 :Yb 3 + /Er 3 + Nanocrystal by 3D Plasmonic Nano- Antennas," Adv. Mater. DOI: 10.1002/adma.201200220 (2012). 221
220 W. Zhang, F. Ding, W. Li, Y. Wang, J. Hu and S. Y. Chou, "Giant and uniform fluorescence enhancement over large areas using plasmonic nanodots in 3D resonant cavity nanoantenna by nanoimprinting," Nanotechnology 23, 225301 (2012). 213
219 L. Zhou, F. Ding, H. Chen, W. Ding, W. Zhang, and S. Y. Chou, "Enhancement of Immunoassay's Fluorescence and Detection Sensitivity Using Three-Dimensional Plasmonic Nano-Antenna-Dots Array," Anal. Chem. 84, 4489−4495 (2012). 213
2011    
218 C. Wang, P. F. Murphy, N. Yao, K. McIlwrath, and S. Y. Chou, "Growth of Straight Silicon Nanowires on Amorphous Substrates with Uniform Diameter, Length, Orientation, and Location Using Nanopatterned Host-Mediated Catalyst," NanoLetters, 11 (12) 5247-5251 (2011). 213
217 W. Li, J. Hu, and S. Y. Chou, “Extraordinary light transmission through opaque thin metal film with subwavelength holes blocked by metal disks,” Optics Express, Vol. 19 Issue 21, pp.21098-21108 (2011). 213
216 C. Wang, K. Morton, Z. Fu, W. Li, and S. Y. Chou, “Printing of sub-20 nm wide graphene ribbon arrays using nanoimprinted graphite stamps and electrostatic force assisted bonding,” Nanotechnology 22, 445301 (2011). 213
215 W. Li, F. Ding, J. Hu, and S. Y. Chou, "Three-dimensional cavity nanoantenna coupled plasmonic nanodots for ultrahigh and uniform surface-enhanced Raman scattering over large area," Optics Express, 19 (5) 3925-3936 (2011). 213
     
2010    
214 K. Morton, O. K. C. Tsui, C. K. Tung, et al., “The anti-lotus leaf effect in nanohydrodynamic bump arrays,” New Journal of Physics, 12, 085008 (2010). 213
213 C. Wang, Q. Xia, W. Li, Z. Fu, K. J. Morton, and S. Y. Chou, "Fabrication of a 60-nm-Diameter Perfectly Round Metal-Dot Array over a Large Area on a Plastic Substrate Using Nanoimprint Lithography and Self-Perfection by Liquefaction," Small, 6 (11) 1242 - 1247 (2010). 213
212 B. Cui, C. Keimel, and S. Y. Chou, “Ultrafast direct imprinting of nanostructures in metals by pulsed laser melting,” Nanotechnology, 21 (4) 045303 (2010). View 8
211 Q. F. Xia and S. Y. Chou, “Applications of excimer laser in nanofabrication,” Applied Physics A: Materials Science & Processing, 98 (1) 9-59 (2010). View 8
210 W. Li and S. Y. Chou, “Solar-blind deep-UV band-pass filter (250-350 nm) consisting of a metal nano-grid fabricated by nanoimprint lithography,” Optics Express, 18 (2) 931-937 (2010). View 8
2009    
209 C. Wang and S. Y. Chou, “Self-aligned fabrication of 10 nm wide asymmetric trenches for Si/SiGe heterojunction tunneling field effect transistors using nanoimprint lithography, shadow evaporation, and etching,” Journal of Vacuum Science & Technology B, 27 (6) 2790-2794 (2009).
208 Y. Liang, P. Murphy, W. Li, and S. Y. Chou, “Self-limited self-perfection by liquefaction for sub-20 nm trench/line fabrication,” Nanotechnology, 20 (46) 465305 (2009).
207 Q. F. Xia, P. F. Murphy, H. Gao, and S. Y. Chou, “Ultrafast and selective reduction of sidewall roughness in silicon waveguides using self-perfection by liquefaction,” Nanotechnology, 20 (34) 345302 (2009). View 8
206 Q. F. Xia and S. Y. Chou, “The fabrication of periodic metal nanodot arrays through pulsed laser melting induced fragmentation of metal nanogratings,” Nanotechnology, 20 (28) 285310 (2009). View 8
205 S. Y. Chou, W. D. Li, and X. G. Liang, “Quantized patterning using nanoimprinted blanks,” Nanotechnology, 20 (15) 155303 (2009). View 8
204 C. Peng, X. G. Liang, and S. Y. Chou, “A novel method for fabricating sub-16 nm footprint T-gate nanoimprint molds,” Nanotechnology, 20 (18) 185302 (2009).  View 8
2008    
203 X. G. Liang and S. Y. Chou, “Nanogap detector inside nanofluidic channel for fast real-time label-free DNA analysis,” Nano Letters, 8 (5) 1472-1476 (2008). View 8
202 K. J. Morton, K. Loutherback, D. W. Inglis, O. K. Tsui, J. C. Sturm, S. Y. Chou, and R. H. Austin, “Hydrodynamic metamaterials: Microfabricated arrays to steer, refract, and focus streams of biomaterials,” Proceedings of the National Academy of Sciences of the United States of America, 105 (21) 7434-7438 (2008). View 8
201 S. Y. Chou and Q. F. Xia, “Improved nanofabrication through guided transient liquefaction,” Nature Nanotechnology, 3 (5) 295-300 (2008); 3 (6) 369-369 (2008). View 8
200 Y. Wang, X. G. Liang, Y. X. Liang, and S. Y. Chou, “Sub-10-nm wide trench, line, and hole fabrication using pressed self-perfection,” Nano Letters, 8 (7) 1986-1990 (2008). View 8
199 K. J. Morton, K. Loutherback, D. W. Inglis, O. K. Tsui, J. C. Sturm, S. Y. Chou, and R. H. Austin, “Crossing microfluidic streamlines to lyse, label and wash cells,” Lab on a Chip, 8 (9) 1448-1453 (2008).   View 8
198 B. Cui, L. Wu and S. Y. Chou, “Fabrication of high aspect ratio metal nanotips by nanosecond pulse laser melting,” Nanotechnology, 19 (34) 345303 (2008). View 8
197 K. J. Morton, G. Nieberg, S. Bai and S. Y. Chou, “Wafer-scale patterning of sub-40 nm diameter and high aspect ratio (>50:1) silicon pillar arrays by nanoimprint and etching,” Nanotechnology, 19 (34) 345301 (2008). View 8
196 Q. Xia, K. J. Morton, R. H. Austin and S. Y. Chou, “Sub-10 nm Self-Enclosed Self-Limited Nanofluidic Channel Arrays,” Nano Letters, 8 (11) 3830-3833 (2008). View 8
195 Q. Xia and S. Y. Chou, “Fabrication of sub-25 nm diameter pillar nanoimprint molds with smooth sidewalls using self-perfection by liquefaction and reactive ion etching,” Nanotechnology, 19 (45) 455301 (2008). View 8
194 R. F. Pease and S. Y. Chou, “Lithography and Other Patterning Techniques for Future Electronics,” 2008 IEEE Proc., 96 (2) 248-270 (2008). View 8
2007    
193 A. S. P. Chang, K. J. Morton, H. Tan, P. F. Murphy, W. Wu, and S. Y. Chou, “Tunable Liquid Crystal-Resonant Grating Filter Fabricated by Nanoimprint Lithography,” IEEE Photonics Technology Letters, 19 (19) 1457 – 1459 (2007). View 8
192 X. Liang, Z. Fu, and S. Y. Chou, “Graphene Transistors Fabricated via Transfer-Printing in Device Active-Areas on Large Wafer,” Nano Letters 7 (12), 3840-3844 (2007). View 8
191 X. Liang, K. J. Morton, R. H. Austin, and S. Y. Chou, “Single Sub-20 nm Wide, Centimeter-Long Nanofluidic Channel Fabricated by Novel Nanoimprint Mold Fabrication and Direct Imprinting,” Nano Letters 7 (12), 3774-3780 (2007). View 8
190 C. Peng, X. Liang, Z. Fu, and S. Y. Chou, “High fidelity fabrication of microlens arrays by nanoimprint using conformal mold duplication and low-pressure liquid material curing,” Journal of Vacuum Science & Technology B, 25 (2) 410-414 (2007). View 8
189 L. F. Pease, P. Deshpande, Y. Wang, W. B. Russel and S. Y. Chou, “Self-Formation of Sub-60-nm Half-Pitch Gratings with Large Areas through Fracturing,” Nature Nanotechnology, 2 (9) 545-548 (2007). View 8
188 P. F. Murphy, K. J. Morton, Z. Fu, and S. Y. Chou, “Nanoimprint mold fabrication and replication by room-temperature conformal chemical vapor deposition,” Applied Physics Letters, 90 (20) Art. No. 203115 (2007). View 8
187 X. G. Liang, H. Tan, Z. Fu, and S. Y. Chou, “Air bubble formation and dissolution in dispensing nanoimprint lithography,” Nanotechnology, 18 (2) 025303 (2007). View 8
186 B. Cui, Z. Yu, H. Ge, and S. Y. Chou, “Large area 50 nm period grating by multiple nanoimprint lithography and spatial frequency doubling,” Applied Physics Letters, 90 (4) Art. No. 043118 (2007). View 8
185 F. Crnogorac, D. J. Witte, Q. Xia, B. Rajendran, D. S. Pickard, Z. Liu, A. Mehta, S. Sharma, A. Yasseri, T. I. Kamins, S. Y. Chou and R. F. W. Pease, “Nano-graphoepitaxy of semiconductors for 3D integration,” Microelectronic Engineering, 84 (5-8) 891-894 (2007). View 8
184 A. S. P. Chang, H. Tan, S. Bai, W. Wu, Z. Yu, and S. Y. Chou, “Tunable External Cavity Laser with a Liquid-Crystal Subwavelength Resonant Grating Filter as Wavelength-Selective Mirror,” IEEE  Photonics Technology Letters, 19 (14) 1099-1101 (2007). View 8
183 Z. N. Yu, H. Gao, and S. Y. Chou, “RIMS (real-time imprint monitoring by scattering of light) study of pressure, temperature and resist effects on nanoimprint lithography,” Nanotechnology, 18 (6) 065304 (2007).            View 8
2006    
182 T.I. Kamins, A.A. Yasseri, S. Sharma, R.F.W. Pease, Q. Xia and S.Y. Chou, “Effect of nanoimprinted surface relief on Si and Ge nucleation and ordering,” Microelectronics Journal, 37 (12) 1481-1485 (2006). View 8
181 N. H. Li, W. Wu, and S. Y. Chou, “Sub-20-nm alignment in nanoimprint lithography using Moire fringe,” Nano Letters 6 (11): 2626-2629 (2006). View 8
180 H. Gao, H. Tan, W. Zhang, K. Morton, and S. Y. Chou, “Air cushion press for excellent uniformity, high yield, and fast nanoimprint across a 100 mm field,” NanoLetters 6 (11): 2438-2441 (2006). View 8
179 A. A. Yasseri, S. Sharma, T. I. Kamins, Q. F. Xia, S. Y. Chou, and R. F. W. Pease, “Alkylsiloxane self-assembled monolayer formation guided by nanoimprinted Si and SiO2 templates,” Applied Physics Letters, 89 (15): Art. No. 153121 (2006). View 8
178 J. A. Davis, D. W. Inglis, K. J. Morton, D. A. Lawrence, L. R. Huang, S. Y. Chou, J. C. Sturm, and R. H. Austin, “Deterministic hydrodynamics: Taking blood apart,” Proceedings of the National Academy of Sciences of the United States of America 103 (40): 14779-14784 (2006). View 8
177 Q. F. Xia, Z. N. Yu, H. Gao, and S. Y. Chou, “In situ real time monitoring of nanosecond imprint process,” Applied Physics Letters, 89 (7): Art. No. 073107 (2006). View 8
176 P. Mandlik, S. P. Lacour, J. W. Li, S. Y. Chou, and S. Wagner, “Fully elastic interconnects on nanopatterned elastomeric substrates,” IEEE Electron Device Letters, 27 (8): 650-652 (2006). View 8
175 B. Cui, W. Wu, C. Keimel, and S. Y. Chou, “Filling of nano-via holes by laser-assisted direct imprint,” Microelectronic Engineering, 83 (4-9): 1547-1550 (2006). View 8
174 G. Bakajin, E. Fountain, K. Morton, et al., “Materials aspects in micro- and nanofluidic systems applied to biology,” MRS BULL 31 (2): 108-113 (2006). View 8
2005    
173 Y. M. Wang, K. Morton, X. J. Guan, L. Guo, E. Cox, J. Sturm, S. Y. Chou, S. Tilghman, and R. H. Austin, “Direct Imaging of Transcription Repressors Bond to Nano-channel Elongated DNA,” Nanotechnology E-Newsletter (2005). View 8
172 L. Chen, L. Zhuang, P. Deshpande, and S. Y. Chou, “Novel polymer patterns formed by lithographically induced self-assembly (LISA),” LANGMUIR 21 (3): 818-821 (2005). View 8
171 M. D. Austin, W. Zhang, H. X. Ge, D. Wasserman, S. A. Lyon, and S. Y. Chou, “6 nm half-pitch lines and 0.04 mu m(2) static random access memory patterns by nanoimprint lithography,” Nanotechnology, 16 (8): 1058-1061 (2005). View 8
170 W. Reisner, K. J. Morton, R. Riehn, Y. M. Wang, Z. N. Yu, M. Rosen, J. C. Sturm, S. Y. Chou, E. Frey, R. H. Austin, “Statics and dynamics of single DNA molecules confined in nanochannels,” Physical Review Letters, 94 (19): Art. No. 196101 (2005). View 8
169 X. G. Liang, W. Zhang, M. T. Li, Q. F. Xia, W. Wu, H. X. Ge, X. Y. Huang, and S. Y. Chou, “Electrostatic force-assisted nanoimprint lithography (EFAN),” Nano Letters, 5 (3): 527-530 (2005). View 8
168 L. Wu and S. Y. Chou, “Electrohydrodynamic instability of a thin film of viscoelastic polymer underneath a lithographically manufactured mask,” Journal of Non-Newtonian Fluid Mechanics, 125 (2-3): 91-99 (2005). View 8
2004    
167 Z. N. Yu, H. Gao, and S. Y. Chou, “In situ real time process characterization in nanoimprint lithography using time-resolved diffractive scatterometry,” Applied Physics Letters, 85 (18): 4166-4168 (2004). View 8
166 P. Deshpande, L. F. Pease III, L. Chen, S. Y. Chou, and W. B. Russell, “Cylindrically Symmetric Electrohydrodynamic Patterning,” Physical Review E, 70 (12) 041601 (2004). View 8
165 D. E. Angelescu, J. H. Waller, D. H. Adamson, P. Deshpande, S. Y. Chou, R. A. Register, and P. M. Chaikin, “Macroscopic orientation of block copolymer cylinders in single-layer films by shearing,” Advanced Materials, 16 (19), 1736 (2004). View 8
164 M. D. Austin, H. X. Ge, W. Wu, M. T. Li, Z. N. Yu, D. Wasserman, S. A. Lyon, and S. Y. Chou, “Fabrication of 5 nm linewidth and 14 nm pitch features by nanoimprint lithography,” Applied Physics Letters, 84 (26): 5299-5301 (2004). View 8
163 J. O. Tegenfeldt, C. Prinz, H. Cao, R. L. Huang, R. H. Austin, S. Y. Chou, E. C. Cox, and J. C. Sturm, “Micro- and nanofluidics for DNA analysis,” Analytical and Bioanalytical Chemistry, 378 (7): 1678-1692 (2004). View 8
162 M. D. Austin and S. Y. Chou, “Response to "Comment on 'Fabrication of a molecular self-assembled monolayer diode using nanoimprint lithography,” Nano Letters, 4 (3): 535-535 (2004). View 8
161 Z. N. Yu and S. Y. Chou, “Triangular profile imprint molds in nanograting fabrication,” Nano Letters, 4 (2): 341-344 (2004). View 8
160 J. O. Tegenfeldt, H. Cao, W. W. Reisner, C. Prinz, R. H. Austin, S. Y. Chou, E. C. Cox, and J. C. Sturm, “Stretching DNA in nanochannels,” Biophysical Journal, 86 (1): 596A-596A Part 2 Suppl. S (2004). View 8
2003    
159 M. D. Austin and S. Y. Chou, “Fabrication of a molecular self-assembled monolayer diode using nanoimprint lithography”, Nano Letters, 3 (12): 1687-1690 (2003). View 8
158 L. Wu and S. Y. Chou, “Dynamic Modeling and Scaling of Nanostructure Formation in the Lithographically Induced Self-Assembly and Self-Construction," Applied Physics Letters, 82 (19), 3200-3202 (2003). View 8
157 Z. Yu, L. Chen, W. Wu, H. Ge, and S. Y. Chou, “Fabrication of nanoscale gratings with reduced line edge roughness using nanoimprint lithography,” Journ. Vac. Science and Technology, B 21 (5), 2089-2092 (2003). View 8
156 W. L. Li, J. O. Tegenfeldt, L. Chen, et al,.“Sacrificial polymers for nanofluidic channels in biological applications,” Nanotechnology, 14 (6), 578-583 (2003). View 8
155 Q. Xia, C. Keimel, H. Ge, Z. Yu, W. Wu, and S. Y. Chou, “Ultrafast patterning of nanostructures in polymers using laser assisted nanoimprint lithography,” Applied Physics Letters, 83 (21), 4417 – 4419 (2003). View 8
154 W. Wu, J. Gu, H. Ge, C. Keimel, and S. Y. Chou, “Room-temperature Si single-electron memory fabricated by nanoimprint lithography,” Applied Physics Letters, 83 (11), 2268-2270  (2003). View 8
153 Z. Yu, H. Gao, W. Wu, H. Ge, and S. Y. Chou, “Fabrication of large area subwavelength anti-reflection structures on Si using trilayer resist nanoimprint lithography and lift-off,” Journal of Vacuum Science and Tech., B, 21 (6) (2003). View 8
152 X. Lei, L. Wu, P. Deshpande, Z. Yu, W. Wu, H. Ge, and S. Y. Chou, “100nm period gratings produced by lithographically induced self-construction,” Nanotechnology, 14, (7), 756-790 (2003). View 8
151 W. Zhang and S.Y. Chou, “Fabrication of 60-nm transistors on 4-in. wafer using nanoimprint at all lithography levels”, Applied Physics Letters, 83 (8): 1632-1634 (2003). View 8
150 M. Li, H. Tan, L. Chen, J. Wang, and S. Y. Chou, “Large area direct nanoimprinting of SiO2-TiO2 gel gratings for optical applications,” Journal of Vacuum Science and Tech., (2003). View 8
149 M. Li, L. Chen, W. Zhang, and S. Y. Chou, “Pattern transfer fidelity of nanoimprint lithography on six-inch wafers,” Nanotechnology, 14, 33-36 (2003). View 8
2002    
148 R.H. Austin, J.O. Tegenfeldt, H. Cao, et al., “Scanning the controls: Genomics and nanotechnology,” IEEE Transactions on Nanotechnology, 1 (1), 12-18 (2002).
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147 M. D. Austin and S. Y. Chou, “Fabrication of 70 nm channel length polymer organic thin-film transistors using nanoimprint lithography,” Applied Physics Letters, 81, (23), 4431 (2002). View 8
146 H. Cao, J. O. Tegenfeldt, R. H. Austin, and S. Y. Chou, “Gradient nanostructures for interfacing microfluidics and nanofluidics,” Applied Physics Letters, 81 (16), 3058-3060 (2002). View 8
145 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Spintronics with Si quantum dots,” Microelectronic Engineering, 63 (1-3) 147-153 (2002). View 8
144 J. Gu and S. Chou, “Single-crystal Si formed on amorphous substrate at low temperature by nanopatterning and nickel-induced lateral crystallization,” Applied Physics Letters, 81 (6), 1104-1106 (2002). View 8
143 J. Feng, B. Cui, Y. Zhan, and S. Y. Chou, “Flexible metal film with micro- and nanopatterns transferred by electrochemical deposition,” Electrochemistry Communications, 4, 102-104 (2002). View 8
142 H. Cao, Z. Yu, J. Wang, and S. Y. Chou, “Fabrication of 10 nm enclosed nanofluidic channels,” Applied Physics Letters, 81 (1), 174-176 (2002). View 8
141 S. Y. Chou, C. Keimel, and J. Gu, “Ultra fast and direct imprint of nanostructures in silicon,” Nature, 417, 835-837 (2002). View 8
140 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Coherent electron transport in a Si quantum dot dimer,” Physical Review Letters, 88, 186801 (2002). View 8
139 M. Austin and S. Y. Chou, “Fabrication of nanocontacts for molecular devices using nanoimprint lithography,” J. Vac. Sci. Technol., B 20, (2), 665-667 (2002). View 8
2001    
138 Z. Yu, W. Wu, L. Chen, S. Y. Chou, “Fabrication of large area 100 nm pitch grating by spatial frequency doubling and nanoimprint lithography for subwavelength optical applications,” J. Va. Sci. Technol., B 19, (6), 2816-2819 (2001). View 8
137 S. Y. Chou, “Nanoimprint lithography and lithographically induced self-assembly,” MRS Bulletin, 26, (7) (2001). View 8
136 W. Zhang and S. Y. Chou, “Mutilevel nanoimprint lithography with submicron alignment over 4 inch Si wafers,” Applied Physics Letters, 79 (6) 845-847 (2001). View 8
135 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Magnetically induced reconstruction of the ground state in a few-electron si quantum dot,” Physical Review Letters, 87 (16) (2001). View 8
134 P. Deshpande, X. Sun, and S. Y. Chou, “Observation of dynamic behavior of lithographically induced self-assembly of supramolecular periodic pillar arrays in a homopolymer film,” Applied Physics Letters, 79 (11) 1688-1690 (2001). View 8
133 M. Li, L. Chen, and S. Y. Chou, “Direct three-dimensional patterning using nanoimprint lithography,” Applied Physics Letters, 78 (21) 3322-3324 (2001). View 8
132 P. Deshpande and S. Y. Chou, “Lithographically induced self-assembly of microstructures with a liquid-filled gap between the mask and polymer surface,” J. Vac. Sci. Technol., B, 19 (6), 2741-2744 (2001). View 8
131 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Spin Transitions in a small Si quantum dot,” Phys. Rev., B, 63 1-4 (2001). View 8
2000    
130 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “ Formation of unintentional dots in small Si nanostructures” Superlattices and Microstructures, 28 (5-6), 413-417 (2000). View 8
129 S. Y. Chou, L. Zhuang, P. Deshpande, et al., “Lithographically induced self-assembly of periodic micropillar arrays in a single homopolymer film,” Abstr. Pap. Am. Chem. S., 219: 328-POLY Part 2 (2000). View 8
128 L. Chen, L. Zhuang, X. Sun, S. Y. Chou, et al., “Effects of polymer viscosity on lithographically induced self-assembly of periodic microstructures,” Abstr. Pap. Am. Chem. S., 219: 214-POLY Part 2 (2000). View 8
127 J. Wang, X. Sun, L. Chen, and S. Y. Chou, “Molecular alignment in submicron patterned polymer matrix usingnanoimpritn lithography,” Appl. Phys. Lett., 77 (2), 166-168 (2000). View 8
126 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Spin transitions in a small Si quantum dot,” cond-mat/0005262 (2000). View 8
125 Z. Yu, P. Deshpande, W. Wu, J. Wang, and S. Y. Chou, “Reflective polarizer based on a stacked double-layer subwavelength metal grating structure fabricated using nanoimprint lithography,” Appl. Phys. Lett., 77 (7) 927-929 (2000). View 8
124 M. Li, J. Wang, L. Zhuang, and S. Y. Chou, “Fabrication of circular optical structures with a 20nm minimum feature size using nanoimprint lithography,” Appl. Phys. Lett., 76 (6), 673-675 (2000). View 8
123 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C Tsui, “Double-dot charge transport in SI single-electron/hole transistors,” Appl. Phys. Lett., 76 (12), 1591-1593 (2000). View 8
122 V. G. Kozlov, G. Parthasarathy, P. E. Burrows, V. B. Kalfin, J. Wang, S. Y. Chou, and S. R. Forrest, “Structures for Organic Diode Lasers and Optical Properties of Organic Semiconductors Under Intense Optical and Electrical Excitations,” IEEE J. Quan. Elec., 36 (1), 18-26 (2000). View 8
1999    
121 L. P. Rokhinson, L. J. Guo, S. Y. Chou, and D. C. Tsui, “Kondo-like zero-bias anomaly in electronic transport through an ultrasmall Si quantum dot,” Phys. Rev., B, 60 (24), R16319-R16321 (1999). View 8
120 J. Wang, S. Schablitsky, Z. Yu, W. Wu, and S. Y. Chou, “Fabrication of a New Broadband Waveguide Polarizer with a Double-layer 190 nm Period Metal-gratings Using Nanoimprint Lithography,” J Vac Sci Tech., B 17 (6), 2957-2960 (1999). View 8
119 S. Y. Chou and L. Zhuang, “Lithographically-induced Self-assembly of Periodic Polymer Micropillar Arrays,” J Vac Sci Tech., B 17 (6), 3197-3202 (1999). View 8
118 J. Wang, X. Y. Sun, L. Chen, and S. Y. Chou, “Direct Nanoimprint Lithography of Submicron Organic Light-emitting Structures,” Appl. Phys. Lett., 75 (18), 2767-2769 (1999). View 8
117 S. Y. Chou, L. Zhuang, and L. J. Guo, “Lithographically Induced Self-Construction of Polymer Microstructures for Resistless Patterning,” Appl. Phys. Lett., 75 (7), 1004-1006 (1999). View 8
116 Z Yu, S. J. Schablitsky, and S. Y. Chou, “Nanoscale GaAs Metal-Semiconductor-Metal Photodetectors Fabricated Using Nanoimprint Lithography,” Appl. Phys. Lett., 74 (16), 2381-2383 (1999). View 8
115 B. Cui, W. Wu, and L.S. Kong, and S.Y. Chou, “Perpendicular quantized magnetic disks with 45 Gbits on a 4x4 cm(2) area,” J Appl. Phys., 85 (8), 5534-5536 Part 2B (1999). View 8
114 L. Kong, Q. Pan, B. Cui, M. Li, and S. Y Chou, “Magnetotransport and domain structures in nanoscale NiFe/Cu/Co Spin-Valve,” J Appl. Phys., 85 (8), 5492-5494 Part 2B (1999). View 8
113 T. I. Kamins, D. A. A. Ohlberg, R. S. Williams, W. Zhang, and S. Y. Chou, “Positioning of Self-Assembled, Single-Crystal Ge Islands by Silicon Nanoimprinting,” Appl. Phys. Lett., 74 (12), 1773-1775 (1999). View 8
1998    
112 L. S. Kong, L. Zhuang, M. T. Li, B. Cui, and S. Y. Chou, “Fabrication, writing, and reading of 10 Gbits/in(2) longitudinal quantized magnetic disks with a switching field over 1000 Oe,” Jpn J Appl. Phys., 1 37 (11) 5973-5975 (1998). View 8
111 A. M. Rudin, L. J. Guo, L. I. Glazman, and S. Y. Chou, “Charge-ring model for the charge-induced confinement enhancement in stacked quantum-dot transistors,” Appl. Phys. Lett., 73 (23), 3429-3431, (1998). View 8
110 H. Tan, A. Gilbertson, and S. Y. Chou, “Roller nanoimprint lithography,” J. Vac. Sci. & Technol., B, 16 (6) 3926-3928 (1998). View 8
109 W. Wu, B. Cui, X. Y. Sun, W. Zhang, L. Zhunag, and S. Y. Chou, “Large area high density quantized magnetic disks fabricated using nanoimprint lithography,” J. Vac. Sci. & Technol., B, 16 (6) 3825-3829 (1998). View 8
108 X. Sun, L. Zhuang, W. Zhang, and S. Y. Chou, “Multilayer Resist Methods for Nanoimprint Lithography on Non-Flat Surfaces,” J. Vac. Sci. & Technol., B, 16 (6) 3922-3925 (1998). View 8
107 L. J. Guo and S. Y. Chou, “Stacked Quantum Dot Transistor and Charge-Induced Confinement Enhancement,” Electronics Letters, 34, 1030-1031 (1998). View 8
106 L. Zhuang, L. Guo, and S. Y. Chou, “Silicon Single-Electron Quantum-Dot Transistor Switch Operating at Room Temperature,” Appl. Phys. Lett., 72, 1205-1207 (1998). View 8
1997    
105 S.Y. Chou, R.C. Shi and L.S. Kong, “Effects of nanoscale trenches and mesas patterned in a substrate on domain structures of magnetic films and ion applications in magnetic disk tracking (abstract),”  Journal of Applied Physics, 81 (8), 4673-4673 Part 2A (1997). View 8
104 S. Y. Chou, S. Schablitsky, and L. Zhuang, “Subwavelength Transmission Gratings and Their Applications in VCSELs,” SPIE, Vol. 3290, 73-81 (1997). View 8
103 P. Chen, G. A. Blake, M. C. Gaidis, E. R. Brown, K.A. McIntosh, S. Y. Chou, M. I. Nathan, and F. Williamson, “Spectroscopic Applications and Frequency Locking of the THz Photomixing with Distributed-Bragg-Reflector Diode Lasers in Low-temperature-grown GaAs,” Appl. Phys. Lett., 71, 1601 (1997). View 8
102 L. Guo, E. Leobandung, L. Zhuang, and S. Y. Chou, “Fabrication and Characterization of Room Temperature Silicon Single Electron Memory,” J. Vac. Sci. & Technol., B, 15(6), 2840 (1997). View 8
101 S. Y. Chou, S. Schablitsky, and L. Zhuang, “Application of Amorphous Silicon Sub-wavelength Gratings in Polarization Switching Vertical-cavity Surface-emitting lasers,” J. Vac. Sci & Technol., B, 15 (6), 2864 (1997). View 8
100 P. R Krauss and S. Y.Chou, “Nano-compact Disks with 400 Gbits/in2 Storage Density Fabricated Using Nanoimprint Lithography and Read with Proximal Probe,” Appl. Phys. Lett., 71 (21), 3174-3176 (1997). View 8
99 S.Y. Chou, P.R. Krauss, W. Zhang, L. Guo, and L. Zhuang, “Sub-10 nm Imprint Lithography and Applications,” J. Vac. Sci. Technol., B 15 (6), 2897-2904 (1997). View 8
98 E. Leobandung, J. Gu, L. Guo, and S. Y. Chou, “Wire-channel and Wraparound Gate Metal-oxide-semiconductor Field-effect Transistors with a Significant Reduction of Short Channel Effects,” J. Vac. Sci. Technol., B 15 (6), 2791 (1997). View 8
97 L. Guo, P. R. Krauss and S. Y. Chou, “Nanoscale Silicon Field Effect Transistors Fabricated Using Imprint Lithography,” Appl. Phys. Lett., 71 (13), 1881-1883 (1997). View 8
96 L. Kong, L. Zhuang and S. Y. Chou, “Writing and Reading 7.5 Gbits/in2 Longitudinal Quantized Magnetic Disk Using Magnetic Force Microscope Tips,” IEEE Trans. Magn., 33 (5), 3019 (1997). View 8
95 E. Chen and S. Y. Chou, “A Novel Device for Detecting the Polarization Direction of Linear Polarized Light Using Integrated Subwavelength Gratings and Photodetectors,” IEEE Photonics Technology Letters, 9 (9), 1259 (1997). View 8
94 L. Kong, R. C. Shi, P. R. Krauss, and S. Y. Chou, “Writing Bits of Longitudinal Quantized Magnetic Disk Using Magnetic Force Microscope Tip,” Jpn. J. Appl. Phys., 36 (8), 5109 (1997). View 8
93 S. Y. Chou, “Big Future for Tiny Dies,” Science Spectra, 10, 39 (1997). View 8
92 S. Y. Chou, “Quantized Magnetic Disks,” J. Magn. Soc. Japan, 21 (7), 1023 (1997). View 8
91 E. Chen and S. Y. Chou, “Characteristics of Coplanar Transmission Lines on Multilayer Substrates:  Modeling and Experiments,” IEEE Transactions on Microwave Theory and Techniques, 45 (4), 939 (1997). View 8
90 E. Chen, and S. Y. Chou, “Polarimetry of Thin Metal Transmission Gratings in the Resonance Region and its Impact on the Response of Metal-semiconductor-metal photodetectors,” Appl.  Phys.  Lett., 70 (20), 2673 (1997). View 8
89 S. Y. Chou, “Patterned Magnetic Nanostructures and Quantized Magnetic Disks,” Invited paper, Proceedings of the IEEE, 85 (4), 652 (1997). View 8
88 Y. Q. Jia and S. Y. Chou, “Effect of Bar-Width on Magnetoresistance of Nanoscale Nickel and Cobalt Bars,” J. of Appl. Physics, 81 (8), 5461 (1997). View 8
87 L. Kong and S. Y. Chou, “Study of Magnetic Properties of MFM Probes Using Micronscale Current Rings,” J. of Appl. Physics, 81 (8), 5026 (1997). View 8
86 L. Kong and S. Y. Chou, “Quantification of Magnetic Force Microscopes Using a Micronscale Current Ring,” Appl. Phys. Lett., 70 (15), 2043 (1997). View 8
85 S. Y. Chou and P. R. Krauss, “Imprint Lithography with Sub-10 nm Feature Size and High Throughput,” Invited, Microelectronic Engineering, 35, 237 (1997). View 8
84 Y. Q. Jia, R. C. Shi, L. Kong, and S. Y. Chou, “Effects of Sample Size and Field Orientation on Pseudo-Hall Voltage in Micronscale Nickel Thin-Film Squares,” J. of Appl. Physics, 81 (8) 5475 (1997). View 8
83 L. Guo, E. Laobandung, and S. Y. Chou, “A Room-Temperature Silicon Single-Electron Metal-Oxide-Semiconductor Memory with Nanoscale Floating-Gate and Ultranarrow Channel,” Appl. Phys. Lett., 70 (7), 850 (1997). View 8
82 E. Chen and S. Y. Chou, “High-Efficiency and High-Speed Silicon Metal-Semiconductor-Metal Photodetectors Operating in the Infrared,” Appl. Phys. Lett., 70 (6), 753 (1997). View 8
81 L. Guo, E. Leobandung, and S. Y. Chou, “A Silicon Single-Electron Transistor Memory Operating at Room Temperature,” Science, 275, 649 (1997). View 8
1996    
80 S. Y. Chou and L. S. Kong, “Effects of magnetostatic interaction between two single-domain cobalt bars on crystal anisotropy and switching field (abstract)”, Journal of Applied Physics, 79 (8), 5855-5855 Part 2B (1996). View 8
79 L.S. Kong and S.Y. Chou, “Nonmonotonic length dependence of switching field of nanolithographically defined single-domain nickel and cobalt bars,” Journal of Applied Physics, 79 (8), 5067-5067 Part 2A (1996). View 8
78 U. Suriono and S. Y. Chou, “Quantized writing processes in quantum magnetic disks (abstract),” Journal of Applied Physics, 79 (8), 5066-5066 Part 2A (1996). View 8
77 S. Y. Chou, P. R. Krauss, and P. J. Renstrom, “Nanoimprint Lithography,” J. Vac. Sci. and Technol., B, 14 (6) 1-5 (1996). View 8
76 L. Zhuang, S. J. Schablitsky, R. C. Shi, and S. Y. Chou, “Fabrication and Performance of Amorphous Silicon Subwavelength Transmission Gratings for Controlling VCSEL Polarization,” J. Vac. Sci. and Tech., B 14 (6), 4055 (1996). View 8
75 E. Chen and S. Y. Chou, “Group Velocities in Coplanar Strip Transmission Lines on Si and Si/SiO2/Si Substrates measured using Differential Electro-optic Sampling,” Appl. Phys. Lett., 69 (19), 2861 (1996). View 8
74 L. Kong, and S. Y. Chou, “Effects of Bar Length on Switching Field of Nanoscale Nickel and Cobalt Bars Fabricated Using Lithography,” J. Appl. Physics, 80 (9), 5205 (1996). View 8
73 S. Y. Chou and P. R. Krauss, “Quantum Magnetic Disk,” J. Magnetism and Magnetic Materials, 155, 151 (1996). View 8
72 E. Chen and S. Y. Chou, “Wavelength Detector Using a Pair of Metal-Semiconductor-Metal Photodetectors with Subwavelength Finger Spacings,” Electronics Letters, (32) 16, 1510 (1996). View 8
71 S. Y. Chou, P. R. Krauss, and L. Kong, “Nanolithographically Defined Magnetic Structures and Quantum Magnetic Disk (Invited),” J. Appl. Phys., 79 (8) 6101 (1996). View 8
70 S. Y. Chou, P. R. Krauss, and P. J. Renstrom, “Imprint Lithography with 25-Nanometer Resolution,” Science, 272, 85 (1996). View 8
69 Y. Q. Jia, R. C. Shi, and S. Y. Chou, “Spin-Valve Effects in Transport Perpendicular to Nickel/Silicon/Nickel Diodes,” IEEE Trans Magnetics, 32 (5), 4707 (1996). View 8
68 S. J. Schablitsky, L. Zhuang, R. C. Shi, and S. Y. Chou, “Controlling Polarization of Vertical-Cavity Surface-Emitting Lasers Using Amorphous Silicon Subwavelength Transmission Gratings,” Appl. Phys. Lett., 69 (1), 7-9 (1996). View 8
67 M. Y. Liu and S. Y. Chou, “High-Modulation-Depth and Short-Cavity-Length Silicon Fabry-Perot Modulator with Two Grating Bragg Reflectors,” Appl. Phys. Lett., 68 (2), 170 (1996). View 8
1995    
66 W. Y. Deng and S. Y. Chou, “Fabrication and Properties of Visible-light Subwavelength Amorphous Silicon Transmission Gratings,” J. Vac. Sci. and Technol., 13 (6), 2879 (1995). View 8
65 S. Y. Chou, P. R. Krauss, M. S. Wei and P. B. Fisher, “Nanolithographically Defined Magnetic Structures,” Scripta Metallurgica et Materialia, 33 (10/11) 1537 (1995). View 8
64 P. R. Krauss and S. Y. Chou, “Fabrication of Planar Quantum Magnetic Disk Structure Using Electron Beam Lithography, Reactive Ion Etching, and Chemical Mechanical Polishing,”   J. Vac. Sci. and Technol., 13 (6), 2850 (1995). View 8
63 E. Leobandung, L. Guo, and S. Y. Chou, “Single Electron and Hole Quantum Dot Transistors Operating above 110K,” J. Vac. Sci. and Technol., B13 (6), 2865 (1995). View 8
62 S. Y. Chou, P. R. Krauss, and P. J. Renstrom, “Imprint of Sub-25 nm Vias and Trenches in Polymers,” Appl. Phys. Lett., 67 (21), 3114 (1995). View 8
61 E. Leobandung, L. Guo, and S. Y. Chou, “Single Hole Quantum Dot Transistors in Silicon,” Appl. Phys. Lett., 67 (16), 2338 (1995). View 8
60 S. Y. Chou, “Ultrahigh-Density Recording: Storing Data in Nanostructures,” Data Storage, 35-40, (1995). View 8
59 E. Leobandung and S. Y. Chou, “Threshold Voltage Sensitivity of 0.1µm Channel Length Fully Developed SOI NMOSFETs with Back-Gate Bias,” IEEE Trans. on Electron Devices, 42 (9), 1707 (1995). View 8
58 E. Leobandung, L. Guo, Y. Wang, and S. Y. Chou, “Observation of Quantum Effects and Coulomb Blockade in Silicon Quantum-Dot Transistors at Temperatures Over 100 K,” Appl. Phys. Lett., 57 (7), 938 (1995). View 8
57 S. Y. Chou and W. Y. Deng, “Subwavelength Amorphous Silicon Transmission Gratings and Applications in Polarizers and Waveplates,” Appl. Phys. Lett., 67 (6), 742 (1995). View 8
56 M. Y. Liu and S. Y. Chou, “Internal Emission Metal-Semiconductor-Metal Photodetectors on Si and GaAs for 1.3 µm Detection,” Appl. Phys. Lett., 66 (20), 2673 (1995). View 8
55 Y. Wang, W. Y. Deng, and S. Y. Chou, “Electron Transport Through a Quantum Cavity,” Superlattices and Microstructures, 17 (2), 193 (1995). View 8
1994    
54 P. R. Krauss, P. B. Fischer, and S. Y. Chou, “Fabrication of Single-Domain Magnetic Pillar Array of 35 nm Diameter and 65 GBITS/IN2 Density,” J. Vac. Sci. and Technol., 12 (6), 3639 (1994). View 8
53 S. Y. Chou, M. S. Wei, P. R. Krauss, and P. B. Fischer, “Study of Nanoscale Magnetic Structures Fabricated Using Electron-Beam Lithography and Quantum Magnetic Disk,” J. Vac. Sci. and Technol., B12 (6), 3695 (1994). View 8
52 S. Y. Chou, M. S. Wei, and P. B. Fischer, “An Ultra-high Resolution Single-Domain Magnetic Force Microscope Tip Fabricated Using Nanolithography,” IEEE Trans. on Magnetics, 30 (6), 4485 (1994). View 8
51 S. Y. Chou, M. S. Wei, P. R. Krauss, and P. B. Fischer, “Single-domain Magnetic Pillar Array of 35 nm Diameter and 65 Gbits/in.2 Density for Ultrahigh Density Quantum Magnetic Storage,” J. Appl. Phys., 76 (10), 6673 (1994). View 8
50 M. S. Wei and S. Y. Chou, “Size Effects on Switching Field of Isolated and Interactive Arrays of Nanoscale Single-Domain Ni bars Fabricated Using Electron-Beam Nanolithography,” J. Appl. Phys., 76 (10), 6679 (1994). View 8
49 Y. Wang and S. Y. Chou, “Quantum Wave Bandstop Filter,” Appl. Phys. Lett., 65 (16), 2072 (1994). View 8
48 M. Y. Liu, E. Chen, and S. Y. Chou, “140-GHz Metal-Semiconductor-Metal Photodetectors on Silicon-on-Insulator Substrate with a Scaled Active Layer,” Appl. Phys. Lett., 65 (7), 887 (1994). View 8
47 Y. Wang, and S. Y. Chou, “Observation of Biased-induced Resonant Tunneling Peak Splitting in a Quantum Dot,” Appl. Phys. Lett., 64 (3), 309 (1994). View 8
1993    
46 P. B. Fischer and S. Y. Chou, “RIE of Sub-50 NM High-Aspect-Ratio Pillars, Ridges, and Trenches in Silicon and Silicon-Germanium,” Microelectronic Engineering, 21(1-4), 311-314 (1993). View 8
45 P. B. Fischer and S. Y. Chou, “High Resolution Electron Beam Lithography and High Accuracy Overlay Using a Modified SEM,” Microelectronic Engineering, 21 (1-4), 141-144 (1993). View 8
44 M.Y. Liu, S. Y. Chou, S. Alexandrou, et al., “110 GHz Si MSM Photodetectors,” IEEE Transactions on Electron Devices,  40 (11), 2145-2146 (1993). View 8
43 Y. Wang and S. Y. Chou, “A New Quantum-dot Transistor,”
IEEE Transactions on Electron Devices, 40  (11),  2136-2136  (1993).
View 8
42 P. B. Fischer, and S. Y. Chou, “10 nm Si Pillars Fabricated using Electron-Beam Lithography, Reactive Ion Etching, and HF Etching,” J. Vac. Sci. and Technol., B11 (6), 2524 (1993). View 8
41 P. B. Fischer, M. S. Wei, and S. Y. Chou, “Ultrahigh Resolution Magnetic Force Microscope Tip Fabricated using Electron Beam Lithography,” J. Vac. Sci. and Technol., B11 (6) 2570 (1993). View 8
40 Y. Wang and S. Y. Chou, “Planar Field-Induced Quantum Dot Transistor,” Appl. Phys. Lett., 63 (16), 2257 (1993). View 8
39 Y. Wang, S. Y. Chou and M. R. Melloch, “Effects of Bias and Temperature on One-Dimensional Ballistic Transport in a Planar Double-Gate Quantum Wire Transistor,” Superlattices and Microstructures, 14 (2/3), 227 (1993). View 8
38 S. Y. Chou and Y. Wang, “Planar Double Gate Quantum Wire Transistor,” Appl. Phys. Lett., 63 (6), 788 (1993). View 8
37 P. B. Fischer and S. Y. Chou, “10 nm Electron Beam Lithography and sub-50 nm Overlay using a Modified Scanning Electron Microscope,” Appl. Phys. Lett., 62 (23), 2989 (1993). View 8
36 S. Alexandrou, C. C. Wang, T. Y. Hsiang, M. Y. Liu, and S. Y. Chou, “A 75 GHz Silicon  Metal-Semiconductor-Metal Schottky Photodiode,” Appl. Phys. Lett., 62 (20), 2507 (1993). View 8
35 P. B. Fischer and S. Y. Chou, “Sub-50 nm High Aspect-ratio Silicon Pillars, Ridges, and Trenches Fabricated using Ultrahigh Resolution Electron Beam Lithography and Reactive Ion Etching” Appl. Phys. Lett., 62 (12), 1414 (1993). View 8
1992    
34 M. Y. Liu, S. Y. Chou, T. Y. Hsiang, S. Alexandrou, and R. Sobolewski, “Nanoscale metal-semiconductor-metal Photodetectors with Subpicosecond Response Time Fabricated using Electron Beam Lithography,” J. Vac. Sci. and Technol., B10 (6), 2932 (1992). View 8
33 Y. Wang and S. Y. Chou, “Engineering Sub-50 nm quantum Effect Devices and Single-electron Transistors Using Electron-Beam Lithography,” J. Vac. Sci. and Technol., B10, 2962 (1992). View 8
32 S. Y. Chou, Y. Liu, and T. F. Carruthers, “32 GHz Metal-Semiconductor-Metal Photodetectors on Crystalline Silicon,” Appl. Phys. Lett., 61, 1760 (1992). View 8
31 S. Y. Chou, and M. Y. Liu, “Nanoscale Tera-Hertz Metal-Semiconductor-Metal Photodetectors,” IEEE J. of Quantum Electronics, 28, 2358 (1992). View 8
30 S. Y. Chou and Y. Wang, “Single-Electron Coulomb Blockade in a Nanometer Field-Effect Transistor with a Single Barrier,” Appl. Phys. Lett., 61, 1591 (1992). View 8
29 S. Y. Chou, Y. Liu, W. Khalil, T. Y. Hsiang, and S. Alexander, “Ultrafast  Nanoscale Metal-Semiconductor-Metal Photodetectors on Bulk and Low-Temperature Grown GaAs,” Appl. Phys. Lett., 61, 819 (1992). View 8
28 T. Chang, M. Lagerquist, J. G. Zhu, J. H. Judy, P. B. Fischer, and S. Y. Chou, “Deconvolution of Magnetic Force Images by Fourier Analysis,” IEEE Transactions on Magnetics, 28 (5) 3138 (1992). View 8
27 S.Y. Chou, Y. Liu, and P. B. Fischer, “Tera-Hertz GaAs Metal-Semiconductor-Metal Photodetectors with 25 nm finger Spacing and Finger Width,” Appl. Phys. Lett., 61, 27 (1992). View 8
26 Z. P. Jiang, P. B. Fischer, S. Y. Chou, and M. I. Nathan, “Novel High Mobility Ga0.51In0.49P/GaAs Modulation-doped Field-Effect Transistor Structures Grown Using a Gas Source Molecular Beam Epitaxy,” J. Appl. Phys., 71, 4632 (1992). View 8
25 S. Y. Chou and A. E. Gordon, “Steps and Spikes in Current-Voltage Characteristics of Oxide/Microcrystallite-Silicon/Oxide Diodes,” Appl. Phys. Lett., 60 (15), 1827 (1992). View 8
1991    
24 S. Y. Chou, Y. Liu, P. B. Fischer, “Fabrication of Sub-50-nm Finger Spacing and Width High-Speed Metal-Semiconductor-Metal Photodetectors Using High-Resolution Electron Beam Lithography and Molecular Beam Epitaxy,” J. Vac. Sci. and Technol., B9, 2920 (1991). View 8
23 Y. Lin, A. D. van Rheenen, and S. Y. Chou, “Current Fluctuations in Double Barrier Quantum Well Resonant Tunneling Diodes,” Appl. Phys. Lett., 59, 1105 (1991). View 8
22 S. Y. Chou, D. R. Allee, R. F. W. Pease, and J. S. Harris Jr., “Lateral Resonant Tunneling Transistors Employing Field-Induced Quantum Wells and Barriers,” Proceeding of IEEE, Invited paper, 79 (8), 1131 (1991). View 8
21 Y. Chang, S. Y. Chou, J. Kramer, and T. W. Sigmon, A. F. Marshall, and K. H. Weiner, “Fabrication of Patterned GexSi1-x/Si layers by Pulsed Laser Induced Epitaxy,” Appl. Phys. Lett., 58, 2150 (1991). View 8
1990    
20 S. Y. Chou and P. B. Fischer, “Double 15-nm-Wide Metal Gates 10 nm Apart and 70 nm Thick on GaAs,” J. Vac. Sci. and Technol., B8, 1919 (1990). View 8
19 N. I. Maluf, S. Y. Chou,  and R. F. W. Pease, “Selective Tungsten Filling of Sub-0.25 µm Trenches for the Fabrication of Scaled Contacts and X-Ray Masks ,” J. Vac. Sci. and Technol., B8 (3), 568 (1990). View 8
18 Y. Chang, S. Y.Chou, T. W. Sigmon, A. F. Marshall, and K. H. Weiner, “Formation of InxGa1-xAs/GaAs Heteroepitaxial Layers Using a Pulsed Laser Driven Rapid Melt-Solidification Process,” Appl. Phys. Lett., 56, 1844 (1990). View 8
17 S. Y. Chou, Y. Chang, K. H. Weiner, T. W. Sigmon, and J. D. Parsons, “Annealing of Implantation Damage and Redistribution of Impurities in SiC Using a Pulsed Excimer Laser,” Appl. Phys. Lett., 56 (6), 530 (1990). View 8
16 D. R. Allee, S. Y. Chou, J. S. Harris Jr., and R. F. W. Pease, “Resonant Tunneling of 1-Dimensional Electrons Across an Array of 3-Dimensionally Confined Potential Wells,” Superlattices and Microstructures, 7 (2), 131 (1990). View 8
1989    
15 N. I. Maluf, S. Y. Chou, J. P. McVittie, S. W. J. Kuan, D. R. Allee, and R. F. W. Pease, “Effects of Chromium on the Reactive Ion Etching of Steep-Walled Trenches in Silicon,” J. Vac. Sci. and Technol., B7, 1497-501, 1989. View 8
14 D. R. Allee, S. Y. Chou, J. S. Harris Jr., and R. F. W. Pease, “Engineering Lateral Quantum Interference Devices Using Electron Beam Lithography and Molecular Beam Epitaxy,” J. Vac. Sci. and Technol., B7, 2015 (1989). View 8
13 S. Y. Chou, D. R. Allee, R.F.W. Pease, and J. S. Harris Jr., “Observation of Electron Resonant Tunneling in a Lateral Dual-Gate Resonant Tunneling Field-Effect Transistor,” Appl. Phys. Lett., 55 (2) 176 (1989). View 8
12 E. Wolak, K. Shepard, S. Y. Chou, and J. S. Harris Jr., “Elastic Scattering in Resonant Tunneling Devices with One Degree of Freedom,” Superlattices and Microstructures, 5 (2), 251 (1989). View 8
1988    
11 S. Y. Chou, N. I. Maluf, and R. F. W. Pease, “High Resolution and High Fidelity X-Ray Mask Structure Employing Embedded Absorbers,” J. Vac. Sci. and Tech., B6 (6), 2202 (1988). View 8
10 R. Anholt, P. Balasingam, S. Y. Chou, T. W. Sigmon, and M. Deal, “Ion Implantation into Gallium Arsenide,” J. Appl. Phys., 64 (7), 3429 (1988). View 8
9 S. Y. Chou, J. S. Harris Jr., and R. F. W. Pease, “Lateral Resonant Tunneling Field-Effect Transistor,” Appl. Phys. Lett., 52 (23), 1982 (1988). View 8
8 S. Y. Chou and J. S. Harris Jr., “Room-Temperature Observation of Resonant Tunneling through an AlGaAs/GaAs Quasiparabolic Quantum Well Grown by Molecular Beam Epitaxy,” Appl. Phys. Lett., 52 (17), 1422 (1988). View 8
7 S. Y. Chou, E. Wolak, and J. S. Harris Jr., “Resonant Tunnelings of Electrons of One or Two Degrees of Freedom,” Appl. Phys. Lett., 52 (8), 657 (1988). View 8
1987    
6 S. Y. Chou, D. A. Antoniadis, H. I. Smith, and M. A. Kastner, “Conductance Fluctuations in Ultra-Short-Channel Si MOSFET's,” Solid State Commun., 61 (9), 571 (1987). View 6
5 S. Y. Chou, D. A. Antoniadis, and H. I. Smith, “Application of the Shubnikov-de Haas Oscillations in Characterization of Si MOSFET's and GaAs MODFET's,” IEEE, Trans. Elec. Dev., ED-34, 883 (1987). View 6
4 S. Y. Chou and D. A. Antoniadis, “Relationship Between Measured and Intrinsic Transconductances of FET's,” IEEE, Trans. Elec. Dev., ED-34, 448 (1987). View 4
1986    
3 S. Y. Chou, H. I. Smith, and D. A. Antoniadis, “Sub-100-nm Channel-Length Transistors Fabricated Using X-Ray Lithography,” J. Vac. Sci. Technol., B4, 253 (1986). View 1
1985    
2 S. Y. Chou, D. A. Antoniadis, and H. I. Smith, “Observation of Electron Velocity Overshoot in Sub-100-nm-Channel MOSFET's in Silicon,” IEEE, Elec. Dev. Lett., EDL-6, 665 (1985). View 2
1 S. Y. Chou, H. I. Smith, and D. A. Antoniadis, “X-ray Lithography for Sub-100-nm-Channel-Length Transistors Using Masks Fabricated with Conventional Photolithography, Anisotropic Etching, and Oblique Shadowing,” J. Vac. Sci. Technol., B3, 1587 (1985). View 1

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