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Silicon for thin-film transistors
Sigurd Wagner, Helena Gleskova, I-Chun Cheng, and Ming Wu,
Thin Solid Films 430 (2003) 15-19.
High hole and electron field effect mobilities in
nanocrystalline silicon deposited at 150°C
I-Chun Cheng, Sigurd Wagner,
Thin Solid Films 427 (2003 ) 56–59.
Nanocrystalline silicon thin film transistors
I-C. Cheng and S. Wagner,
IEE Proc.-Circuits Devices Syst. 150
(2003) 339-344.
Gate dielectrics for thin film transistors of nanocrystalline
silicon deposited at 150°C
I-Chun Cheng and Sigurd Wagner,
Thin Film Transistor Technologies VI (TFTTVI), Yue Kuo ed., ECS Proc. Vol.
2002-23 (2002) 33-41.
Evolution of Nanocrystalline Silicon Layers Deposited at 150°C
for Thin Film Transistor Channels
I-Chun Cheng, Steven Allen, and Sigurd Wagner,
Mat. Res. Soc. Symp. Proc., vol. 769 (2003) H6.8.
Thin Film Transistors Made of Nanocrystalline Silicon for CMOS
on Plastic
I-Chun Cheng and Sigurd Wagner,
Poly-Silicon Thin Film Transistor Technology and Applications in Displays and
Other Novel Technology Areas, IS&T/SPIE Electronic Imaging 2003, A. T. Voutsas
ed., Proc. of SPIE vol. 5004, EI-5004-29 (2003) 179-186.
High Mobility Nanocrystalline Silicon Thin Film Transistors
for CMOS on Plastic Substrates
I-Chun Cheng and Sigurd Wagner,
International Display Manufacturing Conference & FPD Expo 2003, Taipei, Taiwan,
Feb 2003, Proc. of IDMC’03 (2003) Th-10-02.
Hole and
electron field-effect mobilities in nanocrystalline silicon deposited at 150°C
I-Chun Cheng and Sigurd Wagner,
Princeton University
Applied Physics Letters 80
(2002) 440-442
Nanocrystalline
Silicon Thin Film Transistors With 50-nm Thick Deposited Channel Layer, 10 cm2V-1s-1
Electron Mobility and 108 On/Off Current Ratio
Robert B. Min and Sigurd
Wagner, Princeton University
Applied Physics A 74 (2002) 541-543
Fabrication of Thin-Film Transistors on Polyimide Foils,
H. Gleskova and S. Wagner
in Polymides and Other High Temperature Polymers: Synthesis, Characterization
and Applications, Vol. 2, Ed. Mittal K.L., VSP, Utrecht, The Netherlands, 2003,
pp. 459-465.
Amorphous silicon thin film transistors on Kapton fibers
E. Bonderover, S. Wagner, Z. Suo,
Mat. Res. Soc. Symp. Proc. Vol. 736, paper D4.1 (2003) 109-114.
Polycrystalline silicon thin film transistors for CMOS on
flexible steel foil substrates
Ming Wu, James C. Sturm and Sigurd Wagner,
in Polycrystalline Semiconductors VII, Solid State Phenomena vol. 93, Scitec
Publications Ltd, Zurich, Switzerland 2003, pp. 3-12.
150ºC
Amorphous Silicon Thin-Film Transistor Technology for Polyimide Substrates:
Silicon Nitride Layer and Interface Optimization,
H. Gleskova and S. Wagner,
Princeton University, V. Gašparík, Comenius
University, Bratislava, and P. Kováč, Slovak Technical University,
Bratislava
J. Electrochem.
Soc. 148 (2001) G370-G374.
DC-gate-bias
Stressing of a-Si:H TFTs Fabricated at 150ºC on Polyimide Foil,
H. Gleskova and S. Wagner, Princeton University
IEEE Trans on Electron Dev. 48 (2001)1667-1671.
A Rugged
Conformable Backplane Fabricated with an a-Si:H TFT Array on a Polyimide
Substrate
C. E. Forbes, A. Gelbman, C. Turner, Visible Tech-knowledgy,
H. Gleskova and S. Wagner, Princeton University
Society for Information Display 2002 Meeting Digest 33 (2002) 1200-1203
Complementary
Metal-Oxide-Semiconductor Thin Film Transistor Circuits
from a High Temperature Polycrystalline Silicon Process on Steel Foil
Substrates
Ming Wu, Xiang-Zheng Bo, James. C.
Sturm and Sigurd Wagner, Princeton University
IEEE Trans. Electron Devices 49
(2002) 1993-2000
Thermal
oxide of polycrystalline silicon on steel foil as a thin-film transistor gate
dielectric
Ming Wu and Sigurd Wagner,
Applied Physics Letters 78 (2001) 3729-3731
Electrical
Properties of Phosphorus-Doped and Boron-Doped Nanocrystalline Germanium Thin
Films
William B. Jordan and Sigurd Wagner,
Spring MRS 762 (2003) A 5.7, 577-582.
Structural Evolution of Nanocrystalline Germanium Thin Films
with Film Thickness and Substrate Temperature
William B. Jordan, Eric D. Carlson, Todd R. Johnson, Sigurd Wagner,
Spring MRS 762 (2003) A6.5 625-629.
Effects of
Deposition Temperature and Film Thickness on the Structural, Electrical, and
Optical Properties of Germanium Thin Films
William B. Jordan and Sigurd Wagner, Princeton University
MRS Spring Meeting, April 1-5, 2002, San Francisco, CA, paper A18.2
Size and Etching Effects on
the Reverse Current of a-Si:H p-i-n Diodes,
M. Mulato, C. M. Hong, and S. Wagner
Journal of The Electrochemical Society 150 (2003) G735-G738. |
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Stretchable gold conductors on elastomeric substrates
Stéphanie Périchon Lacour, Zhenyu Huang, Zhigang Suo, Sigurd Wagner,
Applied Physics Letters 82 (2003) 2404-2406.
Deformable interconnects for conformal integrated circuits
S. Périchon Lacour, S. Wagner, Z. Huang, Z. Suo,
Mat. Res. Soc. Symp. Proc. vol. 736, D.4.8 (2003) 183-188.
Elastic gold conductors on elastomeric substrates
Catriona Chambers, Stéphanie Lacour, Sigurd Wagner, Zhenyu Huang, Zhigang Suo,
Spring MRS 769 (2003) H10.3.
A Novel Method for Stretchable Metallization
Joyelle Jones, Stephanie Lacour, Sigurd Wagner, Zhigang Suo,
Spring MRS 769 (2003) H6.12.
Stretchable
and deformable macroelectronics
S. Wagner, S. Périchon Lacour, P.-H. I. Hsu, J.C. Sturm, Z. Suo,
61st Device Research Conf. Digest, IEEE (2003) 195-197.
Active matrix OLED using 150°C a-Si TFT backplane built on
flexible plastic substrate
K.R. Sarma, C. Chanley, S. Dodd, J. Roush, J. Schmidt, G. Srdanov, M. Stevenson,
R. Wessel, J. Innocenzo, G. Yu, M. O’Regan, W.A. MacDonald, R. Eveson, K. Long,
H. Gleskova, S. Wagner, J.C. Sturm,
SPIE Proc. Vol. 5080, Cockpit Displays vol. X (2003) 180-191.
Thin-Film Transistors and Flexible Electronics
Sigurd Wagner, Helena Gleskova, I-Chun Cheng, Princeton University, and Ming Wu,
Aegis Semiconductor, Inc.,
in
Growth, Characterization and Electronic Applications of S-based Thin Films, Ralf
B. Bergmann, ed. Research Signpost, Trivandrum 2002, pp. 1-14
Technologies
for Large-Area Electronics on Deformable Substrates
J.C. Sturm, P.I. Hsu, M. Huang, H. Gleskova, S. Miller, A.
Darhuber, S. Wagner, Z. Suo, and S. Troian,
in ULSI Process Integration II, Eds.: C. L. Claeys, F. Gonzales, J. Murota, and
K. Saraswat, Proc. Electrochemical Soc. 2001-2, pp. 506-517 (2001)
Flexible
display enabling technology
Sigurd Wagner, Stephen J. Fonash, Thomas N. Jackson, James C. Sturm
SPIE Symp.Proc. 4362-19 (2001)
Silicon
Thin-film Transistors on Flexible Foil Substrates
Sigurd
Wagner and Helena Gleskova, Princeton
University
IMID (International
Meeting on Information Display) 2002 (held in Daegu, South Korea, August 2002),
Digest of Technical Papers, Korean Information and Display Society, Seoul 2002,
pp. 263-267
Electrical Response
of Amorphous Silicon Thin-Film Transistors
Under Mechanical Strain
H. Gleskova and S. Wagner, W.
Soboyejo, and Z. Suo, Princeton University
J. Appl. Phys. 92 (2002) 6224-6229
Electron
mobility in amorphous silicon thin-film transistors under compressive strain
H. Gleskova and S. Wagner, Princeton University
Applied Physics Lett. 79 (2001) 3347-3349
Controlling the Curvature of Flat Fibers for e-Textile
Applications
Eitan Bonderover, Sigurd Wagner, Zhigang
Suo,
Spring MRS 769 (2003) H9.10.
Amorphous
Si TFTs on Plastically-Deformed Spherical Domes
P.I. Hsu, H. Gleskova, M. Huang, Z. Suo, S.
Wagner, and J.C. Sturm, Princeton University
J. Non-Cryst. Solids 299-302 (2002)
1355-1359
Thin-film
transistor circuits on large-area spherical surfaces
P. I. Hsu, R. Bhattacharya, H. Gleskova, M. Huang, Z. Xi, Z. Suo, S. Wagner,
and J. C. Sturm, Princeton University
Applied Physics Lett. 81
(2002) 1723-1725
Island Edge Coverage By Metal Interconnects for Three
Dimensional Circuits
Rabin Bhattacharya and Sigurd Wagner,
Spring MRS 769 (2003) H10.5.
Effects of Mechanical Strain on the Performance
of Amorphous Silicon Triple-junction Solar Cells
Rebecca Jones, Todd Johnson,
William Jordan, Sigurd Wagner, Princeton University, Jeffrey Yang and Subhendu
Guha, United Solar Systems Corporation
Proc. 29th IEEE Photovoltaic
Specialists Conference, New Orleans 2002. IEEE, New York 2002, pp.
1214-1217. |
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Photoresist-free printing of amorphous silicon thin-film
transistors
Scott M. Miller, Sandra M. Troian, Sigurd Wagner,
Applied Physics Letters 83 (2003) 3207-3209.
Electrophotographically
Printed Insulator
Helena Gleskova and Sigurd Wagner, Princeton
University
Materials Letters 52 (2002) 150-153
Direct printing of
polymer microstructures on flat and spherical surfaces using a letterpress
technique
Scott M. Miller, Sandra M. Troian , and Sigurd Wagner, Princeton
University
J. Vacuum Science & Technology B: Microelectronics and Nanometer
Structures 20 (2002) 2320-2327
Physical
mechanisms governing pattern fidelity in microscale offset printing
Anton A.
Darhuber, Sandra M. Troian and Sigurd Wagner, Princeton University
J. Applied Physics 90
(2001) 3602-3609
Offset
printing of liquid microstructures for high resolution lithography
Scott M. Miller, Anton A. Darhuber, Sandra M. Troian and Sigurd Wagner,
Princeton
University
Mater. Res. Soc. Symp. Proc. 624 (2001) 47-52
Computational
Modeling of Direct Print Microlithography
A.A. Darhuber, S. M. Troian, S. M. Miller, S. Wagner, Princeton University
Mat. Res. Soc. Symp. Proc. 624,
(2000) 261-266
Process
Simulation for Contact Print Microlithography
A.A. Darhuber, S. M. Miller, S. M. Troian, S. Wagner,
Princeton University,
Proceedings of the International Conference on Modeling and Simulation of
Microsystems, San Diego, March 2000, pp. 28-31
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5-kV switches on flexible plastic substrate for Electro-Active
Polymer actuators
S. Périchon Lacour, S. Wagner, R. Pelrine, H. Prahlad,
61st Device Research Conf. Digest, IEEE (2003) 83-84.
Photoconductive high-voltage switches of thin-film amorphous
silicon for EAP actuators
Stéphanie Périchon Lacour, Ron Pelrine, Sigurd Wagner, Harsha Prahlad,
SPIE Smart Structures and Materials, Electroactive Polymer Actuators and
Devices (EAPAD), SPIE Proc. Vol. 5051 (2003) 412-418.
Electrotextiles:
Concepts and Challenges
Sigurd Wagner, Eitan Bonderover, William B. Jordan, and James C. Sturm,
Internat. J. High Speed Electronics and Systems 12 (2002) 1-9
Sensitive Skin
Vladimir Lumelsky, University of Wisconsin and National Science Foundation, Michael Shur, Rensselaer Polytechnic
Institute, and Sigurd Wagner, Princeton University,
IEEE
Sensors Journal 1 (2001) 41-51
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