Publications |
Patents 1.
“Multi-mode tags and
methods of making and using the same”, P. Smith, J. M. Cleeves, V. Pavate, V.
Subramanian, US Patent 7750792 2.
“Method of manufacturing
complementary diodes”, V. Subramanian, P. Smith, US Patent 7528017 3.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, V. Subramanian,
J. M. Cleeves, US Patent 7319053 4.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, V. Subramanian,
J. M. Cleeves, US Patent 7265000 5.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, V. Subramanian,
J. M. Cleeves, US Patent 7160761 6.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, V. Subramanian,
J. M. Cleeves, US Patent 7157314 7.
“Dense arrays and charge
storage devices”, T. H. Lee, V. Subramanian, J. M. Cleeves, A. J. Walker, C.
Petti, I. Kouznetzov, M. G. Johnson,
P. M. Farmwald. B. Herner, US Patent 7129538 8.
“Patterning three
dimensional structures”, C. K. Li, J. N. Knall, M. A. Vyvoda, J. M. Cleeves,
V. Subramanian, US Patent 7071565 9.
“Monolithic three dimensional array of
charge storage devices containing a planarized layer”, T. H. Lee, V.
Subramanian, J. M. Cleeves, A. J. Walker, C. J. Petti, I. G. Kouznetzov, M.
G. Johnson, P. M. Farmwald, and B. Herner, US Patent 6881994 10.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, M. G. Johnson, T.
H. Lee, V. Subramanian, and P. M. Farmwald, US Patent 6780711 11.
“Thermal processing for
three dimensional circuits”, V. Subramanian, J. M. Cleeves, J. N. Knall, C.
K. Li, and M. A. Vyvoda, US Patent 6770939 12.
“Multigate semiconductor
device with vertical channel current and method of fabrication”, J. M.
Cleeves and V. Subramanian, US Patent 6677204 13.
“Thermal processing for
three dimensional circuits”, V. Subramanian, J. M. Cleeves, J. N. Knall, C.
K. Li, and M. A. Vyvoda, US Patent 6624011 14.
“Multigate semiconductor
device with vertical channel current and method of fabrication”, J. M.
Cleeves and V. Subramanian, US Patent 6580124 15.
“Patterning three
dimensional structures”, C. K. Li, J. N. Knall, M. A. Vyvoda, J. M. Cleeves,
and V. Subramanian, US Patent 6627530 16.
“Low cost
three-dimensional memory array”, M. Johnson, T. Lee, V. Subramanian, P.
Farmwald, J. Knall, US Patent 6515888 17.
“Integrated circuit
structure including three-dimensional memory array”, M. Johnson, T. Lee, V.
Subramanian, P. M. Farmwald, J. M. Cleeves, US Patent 6385074. 18.
“FINFET transistor
structures having double gate channel extending vertically from a substrate
and methods of manufacture”, C. Hu, T-J. King, V. Subramanian, L. Chang, X.
Huang, Y-K. Choi, J. T. Kedzierski, N. Lindert, J. Bokor, W-C. Lee, US Patent
6413802 19.
“Vertically stacked field
programmable nonvolatile memory and method of fabrication”, M. Johnson, T.
Lee, V. Subramanian, M. Farmwald, and J. M. Cleeves, US Patent 6185122. 20.
“Vertically Stacked Field Programmable
Nonvolatile Memory and Method of Fabrication”, M. Johnson, T. Lee, V.
Subramanian, M. Farmwald, and J. M. Cleeves, US Patent 6034882. 21.
“Vertically Stacked Field
Programmable Nonvolatile Memory and Method of Fabrication”, M. Johnson, T.
Lee, V. Subramanian, M. Farmwald, and J. M. Cleeves, US Patent 6351406. 22.
“Vertically Stacked Field
Programmable Nonvolatile Memory and Method of Fabrication”, M. Johnson, T.
Lee, V. Subramanian, M. Farmwald, and J. M. Cleeves, US Patent 6483736. Invited Book Chapters and Magazine
Articles
1.
Chapter in “Transparent
Electronics: From Synthesis to Applications”, Editors: A. Facchetti and T.
Marks, Wiley, ISBN: 978-0-470-99077-3, 2010. 2.
Chapter in “The chemistry
of inkjet inks”, Editor: S. Magdassi, World Scientific Publishing Company,
ISBN: 978-9812818218,
2009 3.
Chapter in “Organic
Field-Effect Transistors”, Editors: Z.
Bao, and J. Locklin, CRC Press, ISBN: 978-0849380808, 2007 4.
“Developments in printed
RFID”, V. Subramanian, 5.
“3D Chips: Future
Possibilities”, V. Subramanian, Silicon Invited Conference Papers 1. Keynote
“Printed RF tags and sensors: the confluence of printing and
semiconductors”, V. Subramanian, F. Liao, and H-Y. Tseng, to be presented, The European Microwave Integrated
Circuits Conference 2010, Paris, France, September 2010. 2. Invited “Droplet-on-demand
direct patterning of active materials: materials, modeling, and integration”,
V. Subramanian, to be presented, The 2010 IEEE
Lithography Workshop, Kuai, Hawaii, November 2010 3. Plenary “Printed
electronics: where are we, and where are we going”, V. Subramanian, 2010
Large Area Organic, and Printed Electronics Convention (LOPE-C), Frankfurt,
Germany, June 2010. 4. Keynote “Printed
RFID: Technology Trends and Outlook”,
V. Subramanian, IEEE International Conference on RFID 2010, Orlando, Florida,
April 2010. 5. Invited
“Mechanistic studies on sintering of nanoparticles for formation of
solution-processed thin films”, 2010 Spring meeting of the Materials Research
Society, San Francisco, CA, April 2010. 6. Invited “Printed
Electronics: the confluence of printing and semiconductors”, Vivek
Subramanian, 2009 International Conference on Flexible and Printing
Electronics, Jeju Island, Korea, Nov 2009. 7. Invited
“Organic Transistor Vapor and Biosensors – Technology Status and
Implementation Issues”, Vivek Subramanian, Frank Liao, Lakshmi Jagannathan,
Electrochemical Society Meeting, Vienna, Austria, October 2009. 8. Invited “Printed
transistors for low-cost electronics:
the confluence of printing and printable electronic materials”, Vivek
Subramanian, Alejandro de la Fuente Vornbrock, Steven Molesa, Daniel Soltman,
Huai-Yuan Tseng, and Steven K. Volkman, SPIE Optics + Photonics, August 2-6,
2009, San Diego, CA 9. Invited “Printed Zinc Oxide Based Electronics:
Materials, Devices, and Outlook”, V. Subramanian, S. K. Volkman, and D. R.
Redinger, LOPE-C, June 23-25, 2009, Frankfurt, Germany 10. Invited “Printed
Devices for Low-Cost Electronics: Technology Status and Outlook”, V.
Subramanian, PETEC Inaugural Event, March 17, 2009, Durham, United Kingdom 11. invited
“Printed Electronic Tags and Sensors for Smart Packaging
Applications”, Vivek Subramanian, Josephine Chang, Lakshmi Jagannathan, Frank
Liao, Steve Molesa, David Redinger, Daniel Soltman, Huai-Yuan Tseng, Steve
Volkman, Shong Yin, 2009 Flexible Electronics and Display Conference,
Phoenix, AZ, Feb 2-5, 2009. 12. invited “Electronic
Nose Sensors for Consumer Packaging”, V. Subramanian, IDTechEx Printed
Electronics USA, 13. invited
“Solution-Processed
Transparent Transistors for Low-Cost, Flexible Displays”, V. Subramanian, S.
K. Volkman, and D. R. Redinger, LEOS 2008: The 21st Annual Meeting
of the IEEE Lasers and Electro-Optics Society, Newport Beach, CA, 9-13
November, 2008. 14. invited
“Organic chemical and biosensors for smart packages”, V. Subramanian,
IDTechEx Printed Electronics Asia, 15. invited “Printed
Electronics for Low-Cost Tags, Displays, and Sensors”, V. Subramanian, 1st
International Conference on R2R Printed Electronics, 16. invited “Printed
organic RFID tags: technology, roadmaps, and challenges”, V. Subramanian, 1st
Plastic Electronics Asia Conference and Showcase, 17. invited “Power
supply considerations and solutions for printed electronic tags and sensors”,
V. Subramanian, IDTechEx Printed Electronics Europe, 18. invited “Printed
Chemical and Biosensors: Technology, Design and Challenges”, GOSPEL Workshop
on Plastic Chemical Sensors, 19. Plenary “Printed Electronics For
Low-Cost Electronic Systems: Technology Status and Application Development”,
Vivek Subramanian, Josephine B. Chang, Alejandro de la Fuente Vornbrock,
Daniel C. Huang, Lakshmi Jagannathan, Frank Liao, Brian Mattis, Steven
Molesa, David R. Redinger, Daniel Soltman, Steven K. Volkman, Qintao Zhang,
38th European Solid State Device Research Conference, Edinburgh,
Scotland, September 15-19, 2008 20. invited
“Solution-processed transparent transistors for low-cost, flexible
displays”, Vivek Subramanian, Steven K. Volkman, and David R.
Redinger, 21st Annual Meeting of the IEEE Lasers and Electro
Optics Society, 21. invited
“Printed Organic Transistors for Low-cost Tags, Displays, and
Sensors: Technology, Modeling and Challenges”, Vivek Subramanian, Alejandro
de la Fuente Vornbrock, Huai-Yuan Tseng and Shong Yin, Materials Research
Society Fall Meeting, 22. invited
“Printed Electronics for Low-Cost Tags and Sensors”, Vivek
Subramanian, Sixth Annual Workshop on Microelectronics and Electron Devices,
April 18, 2008. 23. invited “Printed
organic RF tags, chemical sensors and biosensors”, Vivek Subramanian,
International Symposium for Flexible Electronics and Display, 24. invited
“Printed Tags and Sensors for RFID: Opportunities and Challenges”,
Vivek Subramanian, Printed Electronics USA 2007, 25. invited
“Printed RFID Tags: Materials, Processes, and Devices”, Vivek
Subramanian, Daniel Soltman, Daniel Huang, Steven Molesa, 2007 AiChE Annual
Meeting, Salt Lake City, UT, Nov. 8, 2007. 26. invited
“Printed organic RFID tags: technology, roadmaps, and challenges”,
Vivek Subramanian, 3rd Global Plastic Electronics Conference and
Showcase, 27. invited
“Printed organic transistors: technology, characteristics, and
modeling”, Vivek Subramanian, Alejandro de la Fuente Vornbrock, Daniel
Soltman, Huai-Yuan Tseng, and Steve Molesa, 212th meeting of the
Electrochemical Society, Washington, DC, Oct 8, 2007. 28. invited “Printed
electronic tags and sensors - device, materials, and circuit issues”, Vivek
Subramanian, 2007 Organic Electronics Conference and Exhibition, 29. invited “Inkjet
printing of transistors, diodes, and passive components for smart tags”, 30. invited “Printed
organic transistors”, A. de la Fuente and V. Subramanian, Industry Forum on
Printed Electronics, 31. invited “From
Materials to Circuits: Implications of printed materials on printed RFID”, V.
Subramanian, 2007 Pira printed RFID conference, 32. keynote “Droplet on
demand lithography: An enabling technology for low-cost electronics”, V.
Subramanian, A. de la Fuente Vornbrock, 33. invted “Printed RFID
tags: performance needs and technology trends”, V. Subramanian, 2007 IDTechEx
Smart labels USA , Boston, MA, Febraury 20-23, 2007. 34. keynote “Printed Organic Transistors for low-cost
tagging and sensing applications”, V. Subramanian, J. Chang, A. de la Fuente
Vornbrock, 35. invited
“Nano Inks for Printed RFID”, V. Subramanian, Pira Nanoscale Inks and
Pigment Technologies Conference, 36. invited
“Toward Printed RFID: Materials, Processes, and Devices”, V.
Subramanian, 5th Annual Printed Electronics and Displays Conference
and Trade Fair, Las Vegas, Oct 11-13, 2006. 37. invited “Inkjetted
Organic Transistors for Smart Tagging Applications”, 38. invited
focal paper “All-printed electronics: Materials, Devices, and
Circuit Implications”, V.Subramanian, J. Chang, S. Molesa, D. Redinger, and
S. Volkman, Digital Fabrication 2006, Denver, CO, Sept 17-22, 2006. 39. invited “Printed
transistors and passive components for low-cost electronics applications”, V.
Subramanian, J. B. Chang, S. E.
Molesa, S. K. Volkman, and D. R. Redinger, International Symposium on VLSI
Technology, Systems and Applications (VLSI-TSA) April, 2006, pp. 68-9. 40. invited “Advanced
printed materials and devices for RFID applications”, V. Subramanian,
IDTechEx Printed Electronics Europe, 41. invited
“Printed Electronic Nose
Vapor Sensors for Consumer Product Monitoring”, V. Subramanian, J. Lee, V.
Liu, 42. invited
“Nanotechnology in Printed Electronics: Nanoparticles, Nanorods, and
Nanowhy”, V. Subramanian, Pira Pack Electronics Conference, 43. invited “All-printed
RFID Tags: Materials, Devices, and
Circuit Implications”, Vivek Subramanian, Paul C. Chang, Daniel Huang,
Josephine B. Lee, Steven E. Molesa, David R. Redinger, and Steven K. Volkman,
VLSI Design, 2006, Hyderabad India, Jan 2006. 44. invited “Printed
organic transistors: materials and technology”, Vivek Subramanian, Pacifichem
2005: 45. invited
“Low-cost arrayed gas sensors for environmental monitoring”. Vivek
Subramanian, Josephine Lee and Vincent Liu, Materials Research Society Fall
Symposium, Paper S2.1, 46. invited
“Prospects for All-printed RFID: Materials, Devices, Circuits”, V.
Subramanian, International Workshop on Radio Frequency Identification (RFID)
and Wirelss Sensors, 11-13 November, 2005, Kanpur, India. 47. invited
“Printed electronics for low-cost tagging applications”, V.
Subramanian, 2005 International Symposium on Flexible Electronics and
Display, 48. invited “Printed
electronic nose gas sensors”, Vivek Subramanian, Plastic Electronics 2005, 49. invited
“Uses of nanotechnology in printed electronics”, Vivek Subramanian,
Printed Electronics 205, Pira International, Thistle Marble Arch, 50. invited “Printed
organic transistors for low-cost RFID applications”, Vivek Subramanian,
Proceedings of SPIE-The International Society for Optical Engineering vol.
5940, (594013/1-594013/9) , pp. 170-178, 2005. 51. invited “Advanced
printed materials and devices for ultra-low-cost RFID”, Vivek Subramanian,
Printed RFID: Achieving low cost tags through printed electronics – Pira
International, Gatwick, Surrey, UK, May 10-11, 2005. 52. Plenary
session invited talk “Printed
Organic Transistors for Ultra-low-cost RFID Applications”, Vivek Subramanian,
Paul C. Chang, Josephine B. Lee, Steven E. Molesa, and Steven K. Volkman,
Polytronic 2004: 4th International IEEE Conference on Polymers and Adhesives
in Microelectronics and Photonics, Portland, Oregon, USA, 12 September 2004. 53. invited “Materials,
Device, and Circuits Issues for low-cost printed RFID”, V. Subramanian, 2nd Cintelliq Organic Semiconductor
Conference, 2004 (OSC-2004), 54. invited “All-printed
flexible organic thin film transistors: Current status and outlook for the
future”, V. Subramanian, J. M. J. Fréchet, P. C. Chang, D. C. Huang, J. B.
Lee, F. Liao, B. A. Mattis, S. Molesa, A. R. Murphy, D. R. Redinger, and S.
K. Volkman, 206th meeting of the Electrochemical Society,
Honolulu, HI, October 2004. 55. invited “Nanoscale
organic transistors: towards gain in molecular devices”, V. Subramanian, P.
C. Chang, J. B. Lee, T. Le, A. Murphy, J. M. J. Frechet, and A. Liddle, 2004
IEEE Nanoscale Devices and Systems Integration Conference, Miami, FL, 2004. 56. invited “Towards
Printed Low-Cost RFID Tags: Device, Materials and Circuit Technologies”, V.
Subramanian, 2nd Advanced
Technology Workshop on Printing an Intelligent Future: Printed Organic and
Molecular Electronic Technologies, 57. invited “Prospects
for organic semiconductor based devices and circuits: applications, performance,
and reliability considerations”, V. Subramanian, 2002 Topical Research
Conference on Reliability, Oct 2002. 58. invited “FinFET -
quasi-planar double-gate MOSFET”, S. H. Tang, L. Chang, 59. invited “3-D ICs
with Multiple Si Layers: Performance Analysis, and Technology”, K. Saraswat, K. Banerjee, A. Joshi, P.
Kalavade, S. Souri, and V. Subramanian, presented at The
Fifth International Symposium on Low and High Dielectric Constant Materials:
Materials Science, Processing, and Reliability Issues, 197th meeting of the
Electrochemical Society, Toronto, Ontario, Canada, May 14-18, 2000. 60. invited “Novel 3-D
Structures”, K. C. Saraswat, S. J. Souri, V. Subramanian, A. R. Joshi, and A.
W. Wang, 1999 IEEE International SOI Conference Proceedings, pp. 54-55. 61. invited “Seeding
Technology for High Performance TFTs”, K. C. Saraswat and V. Subramanian,
Proceedings of the Electronic Display Forum 98, EIAJ/SEMI, 62. invited “A
Low-Temperature Polycrystalline Si TFT Technology for Large-Area AMLCD
Drivers”, K. C. Saraswat, V. Subramanian, and S. Jurichich, Polycrystalline
Thin Films III - Structure, Texture, Properties, and Applications, MRS
Symposium Proceedings pp 439-449, 1997. 63. invited “A low
temperature polycrystalline SiGe CMOS TFT technology for large area AMLCD
drivers”, K. C. Saraswat, S. Jurichich, T.-J. King, V. Subramanian, and A.
Wang, Proceedings of Thin Film Transistor Technologies III, ECS Symposium,
1996, pp. 186-196. Journal Papers 1.
“Fully gravure and ink-jet
printed high speed pBTTT organic thin film transistors”, Alejandro de la
Fuente Vornbrock, Donovan Sung, Hongki Kang, Rungrot Kitsomboonloha, Vivek
Subramanian, in print, Organic Electronics,
2010 2.
“Scalability of
Roll-to-Roll Gravure-Printed Electrodes on Plastic Foils”, Jinsoo Noh,
Dongsun Yeom, Chaemin Lim, Hwajin Cha, Jukyung Han, Junseok Kim, Yongsu Park,
Vivek Subramanian, Gyoujin Cho, in print, IEEE
Transactions on Electronics Packaging Manufacturing, 2010 3.
“Sintering of Dodecanthiol
Encapsulated Silver Nanoparticles”, S. K. Volkman, S. Yin, T. Bakhishev, K.
Puntambekar, M. F. Toney, and V. Subramanian, in print,
Chem. Mat., 2010 4.
“All Inkjet-Printed, Fully
Self-Aligned Circuits for Low-Cost Applications”, H-Y. Tseng and V.
Subramanian, in print, Organic Electronics,
2010 5.
“Methodology for inkjet
printing partially wetting films”, D. Soltman, B. Smith, H. Kang, S. Morris,
and V. Subramanian, in print, Langmuir
DOI: 10.1021/la102053j 6.
“Hydrostatic optimization
of inkjet-printed films”, H. Kang, D. Soltman, and V. Subramanian, Langmuir,
26, pp 11568–11573, 2010 7.
Invited
“Printed Inorganic Electronics: The Challenges Involved in Printing
Devices, Interconnects, and Contacts”, J. Perelaer, P. J. Smith, D. Mager, D.
Soltman, S. K. Volkman, V. Subramanian, J.
G. Korvink, U. S. Schubert, J. Mat. Chem., J. Mater. Chem., DOI:
10.1039/c0jm00264j, 2010 8.
“The dielectric-integrated monolayer field
effect transistor (DI-mFET)”, K Phoa, K. Puntambekar, A. Murphy, C. Mauldin,
J. B. Neaton, M. F. Toney, D. A. Fischer, D. M. DeLongchamp, J. M. J.
Fréchet, and Vivek Subramanian, submitted to
Appl. Phys. Let., 2010 9.
“Quantification of Thin
Film Crystallographic Orientation Using X-ray Diffraction with an Area
Detector”, Jessy L. Baker, Leslie H. Jimison, Stefan Mannsfeld, Steven
Volkman, Shong Yin, Vivek Subramanian, Alberto Salleo, A. Paul Alivisatos and
Michael F. Toney, Langmuir, 2010, 26 (11), pp 9146–9151 10.
“Thickness Changes in
Polythiophene Gas Sensors Exposed to Vapor”, F. Liao, M.F. Toney, and V.
Subramanian, Sensors and Actuators B, 148, pp. 74-80, 2010 11.
“Physical Discrimination
of Amine Vapor Mixtures Using Polythiophene Gas Sensor Arrays”, F. Liao, S.
Yin, M.F. Toney, V. Subramanian, Sensors and Actuators B, 150, pp. 254-263,
2010 12.
“Solution-Processable
alpha-omega-Distyryl Oligothiophene Semiconductors with Enhanced
Environmental Stability”, C. E. Mauldin, K. Puntambekar, A. R. Murphy, F.
Liao, V. Subramanian, J.M.J. Fréchet, D.M. DeLongchamp, D.A. Fischer,
D.A. M.F. Toney, Chemistry of Materials, vol. 21, 4831—4835, 2009. 13.
invited “Solution-processed
Zinc Oxide Transistors for Low-Cost electronics Applications”, V.
Subramanian, T. Bakhishev, D. R. Redinger, and S. K. Volkman, IEEE Journal of
Display Technology, Vol. 5 , pp. 525 – 530, 2009 14.
“Investigation of Gold
Nanoparticle Inks for Low-Temperature Lead-Free Packaging Technology”, T.
Bakhishev and V. Subramanian, Journal of Electronic Materials, vol. 38, pp.
2720, 2009. 15.
“Label-free low-cost
disposable DNA hybridization detection systems using organic TFTs”,
Biosensors and Bioelectronics, vol. 25, pp. 972, 2010. 16.
“DNA detection using
organic thin film transistors: Optimization of DNA immobilization and sensor
sensitivity”, Lakshmi Jagannathan, Vivek Subramanian, Biosensors and
Bioelectronics, vol. 25, pp. 288, 2009. 17.
“First-Principles Studies
of the Dynamics of [2]Rotaxane Molecular Switches”, Kinyip Phoa, J. B.
Neaton, Vivek Subramanian, Nano Letters, 9, pp. 3225-3229, 2009. 18.
“Patternable polymer bulk
heterojunction photovoltaic cells on plastic by rotogravure printing”, Jau M.
Ding, Alejandro de la Fuente Vornbrock, Ching Ting and Vivek Subramanian,, Solar Energy and Materials, 93, pp. 459-464, 2009. 19.
“Scaling and Optimization
of Gravure-Printed Nanoparticle Lines for Printed Electronics”, D. C. Sung,
A. de la Fuente Vornbrock, V. Subramanian, IEEE Transactions on Components
and Packaging Technologies, 33, pp. 105 – 114, 2010. 20.
“Selective Growth of Zinc Oxide Nanorods on
Inket printed seed patterns”, R. Kitsomboonloha, S. Baruah, M. T. Z. Myint,
V. Subramanian, and J. Dutta, “ Journal of 21.
“Inkjet printed line
morphologies and temperature control of the coffee ring effect”, Dan Soltman
and Vivek Subramanian, Langmuir, vol 24(5), pp. 2224-2231, 2008. 22.
“High-Performance
Chemical-Bath-Deposited Zinc Oxide Thin-Film Transistors”, D. Redinger and V.
Subramanian, IEEE Transactions on Electron Devices, 54, pp. 1301-1307, 2007. 23.
“DNA hybridization
detection with organic thin film transistors: Toward fast and disposable DNA
microarray chips”, Qintao Zhang and Vivek Subramanian, Biosensors and
Bioelectronics, 22, pp. 3182-3187, 2007. 24.
“Performance recovery and
optimization of poly(3-hexylthiophene) transistors by thermal cycling”, B. A.
Mattis, P. C. Chang, and V. Subramanian, Synthetic Metals, 156, pp.
1241-1248, 2006. 25.
“Printable polythiophene
gas sensor array for low-cost electronic noses”, Josephine B. Chang, Vincent
Liu, Vivek Subramanian, Kevin Sivula, Christine Luscombe, Amanda Murphy,
Jinsong Liu, and Jean M. J. Fréchet J.
Appl. Phys. 100, 014506 (2006) 26.
“Effect of active layer
thickness on bias stress effect in pentacene thin-film transistors”,
Josephine B. Chang and Vivek Subramanian Appl. Phys. Lett. 88, 233513 (2006) 27.
“Correlating molecular
design to microstructure in thermally convertible oligothiophenes: the effect
of branched versus linear end groups”, D. M. DeLongchamp, Y. Jung, D. A.
Fischer, E. K. Lin, P. Chang, V. Subramanian, A. R., Murphy, J. M. J.
Frechet., Journal of Physical Chemistry B, vol.110, no.22, 8 June 2006, pp.
10645-50. 28.
“Inkjetted Crystalline
Single-Monolayer Oligothiophene OTFTs”, P. C. Chang,, S. E. Molesa, A. R.
Murphy, J. M. J. Fréchet, and V. Subramamian, IEEE Transactions on Electron
Devices, vol. 53, pp. 594-600, 2006. 29.
selected
for cover: “Direct correlation of organic semiconductor film
structure to field-effect mobility”, D. M. DeLongchamp, S. Sambasivan, D. A.
Fischer, E. K. Lin, P. Chang, A. R. Murphy, J. M. J. Frechet, V. Subramanian,
Advanced Materials, vol. 17, 2340-344, 2005. 30.
“Self-Assembly, Molecular
Ordering, and Charge Mobility in Solution-Processed Ultrathin Oligothiophene
Films”, A. R. Murphy, P. C. Chang, P.
VanDyke, J. Liu, J. M. J. Fréchet, V. Subramanian, D. M. DeLongchamp, S.
Sambasivan, D. A. Fische, E. K. Lin, Chem. Mater., vol. 17, pp. 6033-41,
2005. 31.
“Printed organic
transistors for ultra-low-cost RFID applications”, V. Subramanian, P.C.
Chang, J. B. Lee, S. E. Molesa, S. K. Volkman, IEEE Transactions on
Components & Packaging Technologies, vol. 28, pp. 742-727, 2005. 32.
invited “Progress
towards development of all-printed RFID tags: Materials, Processes, and
Devices”, Vivek Subramanian, Jean M.
J. Fréchet , Paul C. Chang, Daniel Huang, Josephine B. Lee, Steven E. Molesa,
Amanda R. Murphy, David R. Redinger, and Steven K. Volkman, Proceedings of
the IEEE, vol. 93, pp. 1330-1338, 2005. 33.
“10-nm channel length
pentacene transistors”, Josephine Lee, Paul Chang, Alex Liddle, and Vivek
Subramanian, IEEE Transactions on Electron Devices, vol. 52, pp. 1874-1879,
2005. 34.
“Organic TFTs as gas
sensors for electronic nose applications”, F. Liao, C. Chen, and V.
Subramanian, Sensors and Actuators B-Chemical. Vol. 107, pp. 849-855, 2005. 35.
“Nanoscale device
isolation of organic transistors via electron-beam lithography”, Brian A.
Mattis, Yunan Pei, and Vivek Subramanian, Appl. Phys. Lett., vol. 86, pp.
769-772, 2005. 36.
“Weave Patterned Organic
Transistors on Fiber for E-Textiles”, Josephine B. Lee and Vivek Subramanian,
IEEE Transactions on Electron
Devices, vol. 62, pp. 269, 2005. 37.
“An ink-jet-deposited
passive component process for RFID”, D. Redinger, R. Farshchi, and V.
Subramanian, IEEE Transactions on Electron Devices, vol. 51, pp. 1978, 2004. 38.
“Film Morphology and Thin
Film Transistor Performance of Solution Processed Oligothiophenes”, Paul C.
Chang, Josephine Lee, Daniel Huang, Vivek Subramanian, Amanda R. Murphy, and
Jean M. J. Fréchet,, J. Chem. Mat., vol. 16, pp.
4783, 2004. 39.
“Organic Thin Film Transistors from a
Soluble Oligothiophene Derivative Containing Thermally Removable Solubilizing
Groups”, Amanda R. Murphy, Jean M. J. Frechet, Paul Chang, Josephine Lee,and
Vivek Subramanian, J. Am. Chem. Soc. vol. 126, pp. 1596, 2004. 40.
“Plastic-compatible low-resistance printable
gold nanoparticle conductors for flexible electronics”, D. Huang, F. Liao, S.
Molesa, D. Redinger, and V. Subramanian, Journal of the electrochemical
society, Vol. 150, pp. 412, 2003. 41.
“Observation of
dopant-mediated intermixing at Ge/Si Interface”, H. Takeuchi, P. Ranade, V.
Subramanian, and T-J. King, Applied Physics Letters, Vol. 80, pp. 3706-3708,
2002. 42.
“A novel elevated
source/drain PMOSFET formed by Ge-B/Si Intermixing”, P. Ranade, H. Takeuchi,
V. Subramanian, and T-J. King, IEEE Electron Device Letters, Vol. 23, pp.
218-220, 2002. 43.
“Design and Fabrication of
50 nm Ultra-Thin Body P-MOSFETs with a Silicon-Germanium Heterostructure
Channel". Y-C. Yeo, V.
Subramanian, J. Kedzierski, P. Xuan, T-J. King, J. Bokor, and C. Hu,
IEEE Transactions on Electron Devices, 49, pp. 279 –286, 2002. 44.
“Observation of Boron and Arsenic Mediated
Interdiffusion Across Germanium/Silicon Interfaces”, P. Ranade, H. Takeuchi,
V. Subramanian and T.-J. King, Electrochemical and Solid-State Letters, Vol.
5, no. 2, pp. G5-G7, 2002. 45.
“Sub-50nm P-Channel
FinFET”, X. Huang, W-C. Lee, C. Kuo, D. Hisamoto, L. Chang, J. Kedzierski, E.
Anderson, H. Takeuchi, Y-K. Choi, K. Asano, V. Subramanian, T-J. King, J.
Bokor, and C. Hu, IEEE Transactions on Electron Devices, Vol. 48, pp.
880-886, 2001. 46.
“A 20 nm gate-length
ultra-thin body p-MOSFET with silicide source/drain.” J. Kedzierski, P. Xuan,
V. Subramanian, 47.
“Ultrathin-body SOI MOSFET
for deep-sub-tenth micron era”, Y-K. Choi, K. Asano, N. Lindert, V. Subramanian, T-J. King, J.
Bokor, C. Hu , IEEE Electron Device Letters , Vol. 21, pp. 254-255, 2000. 48.
“Nanoscale Ultra-Thin-Body
Silicon-on-Insulator P-MOSFET with a SiGe/Si Heterostructure Channel”, Y. C.
Yeo, V. Subramanian, J. Kedzierski, P. Xuan, T-J. King, J. Bokor, and C. Hu,
IEEE Electron Device Letters, Vol. 21, pp. 161-163, 2000 (IEEE Paul Rappaport
Award for best paper in an IEEE Electron Device Society Journal). 49.
“Low-leakage
Germanium-seeded Laterally-crystallized Single-grain 100nm TFTs for Vertical
Integration Applications”, V. Subramanian, M. Toita, N. R. Ibrahim, S. J.
Souri and K. C. Saraswat, IEEE Electron Device Letters, Vol. 20, pp. 341-343,
1999. 50.
“High Performance
Germanium-Seeded Laterally Crystallized TFTs for Vertical Device
Integration”, V. Subramanian and K. C. Saraswat, IEEE Transactions on
Electron Devices. Vol. 18, pp. 1934-1939, 1998. 51.
“Optimization of
Silicon-Germanium TFTs through the control of amorphous precursor
characteristics”, V. Subramanian and K. C. Saraswat, IEEE Transactions on
Electron Devices, vol. 45, pp. 1690-1695, 1998. 52.
“Controlled Two-Step Solid
Phase Crystallization for High Performance Polysilicon TFTs”, V. Subramanian,
P. Dankoski, L. Degertekin, B. T. Khuri-Yakub, and K. C. Saraswat, IEEE
Electron Device. Letters, vol. 18, pp. 378-81, 1997 53.
“In-Situ Monitoring of Crystallinity and
Temperature During Rapid Thermal Crystallization of Silicon on Glass”, V.
Subramanian, L. Degertekin, P. Dankoski, B. T. Khuri-Yakub, and K. C.
Saraswat, Journal of the Electrochemical Society, vol. 144, 1997, pp.
2216-2221. 54.
“The Effect of Ionizing
Radiation Damage on Transconductance of Short Channel Insulated Gate Field
Effect Transistors”, Subramanian & Bhattacharya, Japanese Journal of
Applied Physics I, vol. 34 (1995), pp. 1809 55.
“Chemical Contamination of
Thin Oxides and Native Silicon for use in Modern Device Processing”,
Subramanian et al, International Journal of Electronics, vol. 78 (1995), pp.
519 Conference Papers 1.
“Electrical
Characterization of close-packed ZnSe Nanoparticle Films”, J. Jang, V.
Subramanian, to be presented, Materials
Research Society Fall Meeting, December, 2010 2.
“Synthesis, growth, and
phase transitions in iron sulfide nanoparticles”, J. Jang, V. Subramanian, to be presented, Materials Research Society Fall Meeting,
December 2010 3.
“Methodology for Inkjet
Printing Partially Wetting Films”, D. Soltman, B. Smith, H. Kang, S. Morris,
and V. Subramanian, to be presented,
2010 IS&T Digital Fabrication conference, Austin, TX, Sept. 19-23, 2010. 4.
“A Kinetic Monte Carlo
study on the dynamic Switching properties of Electrochemical Metallization RRAMs during the SET
Process”, F. Pan, V. Subramanian, The International Conference on Simulation
of Semiconductor Processes and Devices (SISPAD), Bologna, Italy, Sept 6 – 8,
2010. 5.
“A 2D Kinetic Monte Carlo
simulation of resistive switching and filament formation in electrochemical
RRAMs”, F. Pan and V. Subramanian, 2010 IEEE Device Research Conference. 6.
“Highly-scale gravure-printed pBTTT organic
field-effect transistors: Device characteristics and Bias Stability Analysis”,
R. Kitsomboonloha, A. de la Fuente and V. Subramanian, 2010 Large Area
Organic, and Printed Electronics Convention (LOPE-C), Frankfurt, Germany,
June 2010. 7.
“Downscaling of all inkjet
printed, fully self-aligned organic circuits”, H-Y. Tseng and V. Subramanian,
2010 Large Area Organic, and Printed Electronics Convention (LOPE-C),
Frankfurt, Germany, June 2010. 8.
“Methodology for two
dimensional pattern generation in inkjet printing”, D. Soltman and V.
Subramanian, 2010 Large Area Organic, and Printed Electronics Convention
(LOPE-C), Frankfurt, Germany, June 2010. 9.
“Solution-Processed
Non-volatile Filament Memory Based on ZnO Nanoparticle Films”, T. Bakhishev
and V. Subramanian, 2010 Large Area Organic, and Printed Electronics
Convention (LOPE-C), Frankfurt, Germany, June 2010. 10.
“Printable Ag2O Cathodes
for Silver-Zinc Batteries”, K. Braam, S. K. Volkman, and V. Subramanian, 2010
Spring meeting of the Materials Research Society, San Francisco, CA, April
2010. 11.
“Ink-Jet Printed Conductors
Based on Reduced Graphene Oxide”, T. Bakhishev, J. T. Robinson, P. E.
Sheehan, Z. Wei and V. Subramanian, 2010 Spring meeting of the Materials
Research Society, San Francisco, CA, April 2010. 12.
“Hydrostatic concerns in
inkjet-printed films”, H. Kang, D. Soltman, and V. Subramanian, 2010 Spring
meeting of the Materials Research Society, San Francisco, CA, April 2010. 13.
“Dielectric Breakdown and Kinetic Monte
Carlo Simulation of Metal Filament Retention RESET Processes for Resistive
Switches “, F. Pan and V. Subramanian, 2010 Spring meeting of the Materials
Research Society, San Francisco, CA, April 2010. 14.
“Considerations for pattern generation in
inkjet-printed electronics”, Dan Soltman, Hongki Kang, Vivek Subramanian,
SPIE Advanced Lithography, San Jose, CA, February, 2010 15.
“All Inkjet Printed Self-Aligned Transistors
and Circuits Applications”, Huai-Yuan Tseng and Vivek Subramanian, 2009
International Electron Device Meeting, Baltimore, MD., Dec, 2009 16.
“Optimization of
inkjet-based process modules for printed transistor circuits”, Huai-Yuan
Tseng, Shong Yin, Vivek Subramanian, Digifab, Louisville, KY, October 2009 17.
“All Inkjet Printed
Self-Aligned Transistors for Low Cost RFID Applications”, Huai-Yuan Tseng,
Vivek Subramanian, 2009 IEEE Device Research Conference 18.
“Printing and scaling of
metallic traces and capacitors using a laboratory-scale rotogravure press”,
Alejandro de la Fuente Vornbrock, Jau M. Ding, Donovan Sung, Huai-Yuan Tseng,
Vivek Subramanian, 2009 Flexible Electronics and Display Conference, Phoenix,
AZ, Feb 2-5, 2009. 19.
“Effect of Pentacene Film
Formation on Detection Behavior of Organic Transistor DNA Microarrays:,
Lakshmi Jagannathan and Vivek Subramanian, Materials Research Society Fall
Meeting, 20.
“Microstructure of
Pentacene Films from a Pentacene Precursor”, Daniel C Huang, Shong Yin, Kanan
Puntambekar, Mike Toney and Vivek Subramanian, Materials Research Society
Fall Meeting, Boston, MA, Dec 1-4, 2008 21.
“Solution Processed Silver
Sulfide Filament Memories”, Shong Yin and Vivek Subramanian, Materials
Research Society Fall Meeting, Boston, MA, Dec 1-4, 2008 22.
“The Dielectric-Integrated Monolayer Field
Effect Transistor (DI-mFET)”, Kinyip Phoa and Vivek Subramanian, 2008
Semiconductor Research Corporation TechCon, 23.
“Pentacene
Characterization for Optimum DNA Immobilization”, Lakshmi Jagannathan, Vivek
Subramanian, 2008 Semiconductor Research Corporation TechCon, 24.
“Effect of Pentacene Film
Formation on Detection Behavior of Organic Transistor DNA Microarrays”,
Lakshmi Jagannathan and Vivek Subramanian, Materials Research Society Fall
Meeting, Boston, MA, Dec 1-4, 2008. 25.
“Microstructure of
Pentacene Films from a Pentacene Precursor”, Daniel C Huang, Shong Yin, Kanan
Puntambekar, Mike Toney and Vivek Subramanian, Materials Research Society
Fall Meeting, Boston, MA, Dec 1-4, 2008 26.
“Experimental and
Theoretical Studies for the Optimization of Polythiophene Gas Sensor Array”,
F. Liao, V. Subramanian, 214th Meeting of The Electrochemical
Society, 27.
“A Novel Solder Based on
Metallic Nanoparticle Inks for Low-Temperature Packaging Technology”, T.
Bakhishev and V. Subramanian, 2009 TMS Annual Meeting & Exhibition, San
Francisco, CA, Feb 15-19, 2009 28.
“Label-free low-cost
disposable DNA hybridization detection systems using organic TFTs”, Qintao
Zhang, Vivek Subramanian, 2007 IEEE International Electron Device Meeting, 29.
“Printable DNA sensor using organic
transistors”, Qintao Zhang and 30.
“Organic Transistors of Molecular
Integrated Semiconductor-insulator Monolayer Films Using a Room Temperature
Self-assembly Process”, Kanan Puntambekar, Kinyip Phoa, 31.
“Stacked Low-Power
Field-Programmable Antifuse Memories for RFID on Plastic”, B. Mattis, V.
Subramanian, 2006 International Electron Device Meeting, 2006, 11.7 32.
“A field-programmable
antifuse memory for RFID on plastic”, B. Mattis and V. Subramanian, 2006 IEEE
Device Research Conference, June 2006. 33.
“Iodine-doped pentacene
schottky diodes for high-frequency RFID rectification”, D. Huang and V.
Subramanian, 2006 IEEE Device Research Conference, June 2006. 34.
“Low-Voltage Inkjetted
Organic Transistors for Printed RFID and Display Applications”, S. E. Molesa,
A. de la Fuente Vornbrock, P. C. Chang, V. Subramanian, 35.
“Monolayer Formation in
Oligothiophene Based OTFTs”, Paul Chang, Amanda R. Murphy, Jean M. J. Frechet
and Vivek Subramanian, 2005 Materials Research Society Fall Symposium, Paper
M7.7, Boston MA, December, 2005. 36.
“A novel high-Q printed
inductor technology for RFID applications”, David Redinger and Vivek
Subramanian, 2005 Materials Research Society Fall Symposim, Paper M8.7,
Boston MA, December 2005. 37.
“Solution-processed ZnO
nanowire-network thin film transistors for transparent electronics”, Teymur
Bakhishev, Steven K Volkman and Vivek Subramanian, 2005 Materials Research
Society Fall Symposium, Paper DD5.5, Boston MA, December, 2005. 38.
“Polythiophene Thin-film
Transistor Array for Gas Sensing”, J. B. Lee, M. Heeney, S. Tierney, I.
McCulloch, A. Murphy, J. Liu, J. Frechet, and V. Subramanian, 63rd IEEE
Device Research Conference Digest, Vol 1, pp. 147-148, 2005. 39.
“Measuring Structure and
Order Development in Organic Semiconductor Films with Soft X-Ray
Spectroscopy”, D. M. DeLongchamp, E. K. Lin, D. Fischer, S. Sambasivan, B. M.
Vogel, J. M. J. Frechet, V. Subramanian, and A. R. Murphy, 2005 Annual AIChE
Meeting, Cincinnati, OH, Oct 31 – Nov1, 2005. 40.
“A high-performance
all-inkjetted organic transistor technology”, Steven E. Molesa, Steven K.
Volkman, David R. Redinger, Alejandro de la Fuente Vornbrock, and Vivek
Subramanian, 2004 IEEE International
Electron Device Meeting Technical Digest, pp. 1072, 2004. 41.
“A novel transparent
air-stable printable n-type semiconductor technology using ZnO nanoparticles”,
Steven K. Volkman, Steven E. Molesa, Josephine B. Lee, Brian A. Mattis,
Alejandro de la Fuente Vornbrock, Teymur Bakhishev, and Vivek Subramanian,
2004 IEEE International Electron Device meeting Technical Digest, pp. 769,
2004. 42.
“Structure and order
development in organic semiconductor films”, Dean M DeLongchamp, Erin
Jablonski, Sharadha Sambasivan, Daniel Fischer, Eric K Lin, Steven Volkman,
Paul Chang, Vivek Subramanian, 2004 Annual AIChE Meeting, Austin, TX, Nov
7-12, 2004. 43.
Best
paper award “Single-monolayer inkjetted oligothiophene organic
TFTs exhibiting high performance and low leakage”, P. C. Chang,, S. E.
Molesa, A. R. Murphy, J. M. J. Fréchet, and V. Subramanian, 62nd
IEEE Device Research Conference Conference Digest, Pages 183 - 184 vol.1,
2004. 44.
“High-performance inkjet-printed pentacene
transistors for ultra-low-cost RFID applications.”, Steven Molesa, Mark Chew,
David Redinger, Steven K Volkman, and Vivek Subramanian, 2004 Mat. Res. Soc.
Spring Meeting 45.
“Ink-Jetted Silver/Copper
Conductors for Printed RFID Applications”, Steven K. Volkman, Yunan Pei,
David Redinger, Shong Yin, and Vivek Subramanian, Flexible Electronics
2004—Materials and Device Technology, edited by Norbert Fruehauf, Babu R.
Chalamala, Bruce E. Gnade, and Jin Jang (Mater. Res. Soc. Symp. Proc. 814, 46.
“The role of film
thickness in organic thin film transistor gas sensors”, Christopher Chen,
Frank Liao, and Vivek Subramanian, 2004 Mat. Res. Soc. Spring Meeting. 47.
“Organic TFT Gas Sensors
for Electronic Nose Applications”, Frank Liao, Chris Chen, and Vivek
Subramanian, 2004 Mat. Res. Soc. Spring Meeting. 48.
“10nm organic FETs:
scaling phenomena and characterization”, Josephine Lee, Paul Chang, Alex
Liddle, and Vivek Subramanian, 2004 Mat. Res. Soc. Spring Meeting. 49.
“Nanoscale Patterning of
Organic and Molecular Electron Devices through Radiation-induced Film
Modification”, Brian Alexander Mattis, 50.
“Crystalline Organic
Semiconducting Thin Films Cast From a Novel Thermolytic Thiophene
Oligomer”, Paul C. Chang, Amanda R.
Murphy, Josephine B. Lee, Jean M.J. Fréchet, and Vivek Subramanian, Flexible
Electronics 2004—Materials and Device Technology, edited by Norbert Fruehauf,
Babu R. Chalamala, Bruce E. Gnade, and Jin Jang (Mater. Res. Soc. Symp. Proc.
814, 51.
“Organic transistors on fibers: A first step
towards electronic textiles”, Josephine B. Lee and Vivek Subramanian, IEEE
International Electron Device Meeting Technical Digest, pp. 8.3.1, 2003. 52.
“Inkjetted Passive
Components on Plastic Substrate for RFID”, D. Redinger, R. Farshchi, and V.
Subramanian, 2003 IEEE Device Research Conference Conference Digest, pp.
187-188, 2003. 53.
“Effect of Thermal Cycling
on performance of poly(3-hexyl)thiophene transistors”, B. Mattis, P. Chang,
and V. Subramanian, Proceedings of the Materials Research Society Spring 2003
meeting, Symposium: Organic and Polymeric Materials and Devices, Editors:
Paul W.M. Blom, Neil C. Greenham, Christos D. Dimitrakopoulos, C. Daniel Frisbie,
MRS Proceedings Volume 771, L10.35, 2003. 54.
“High-quality
inkjet-printed multilevel interconnects and inductive components on plastic
for ultra-low-cost RFID applications”, S. Molesa, D. Redinger, D. Huang, and
V. Subramanian, Proceedings of the Materials Research Society Spring 2003
meeting, Symposium H: Flexible Electronics--Materials and Device Technology,
Editors: Norbert Fruehauf, Babu R. Chalamala, Bruce E. Gnade, Jin Jang, MRS
Proceedings Volume 769, H8.3, 2003. 55.
“Inkjetted organic
transistors using a novel pentacene precursor”, S. Volkman, S. Molesa, B.
Mattis, P. C. Chang, and V. Subramanian, Proceedings of the Materials
Research Society Spring 2003 meeting, Symposium H: Flexible
Electronics--Materials and Device Technology, Editors: Norbert Fruehauf, Babu
R. Chalamala, Bruce E. Gnade, Jin Jang, MRS Proceedings Volume 769, H11.7,
2003. 56.
“Flexonics”, J. Canny, J.
Risner, and V. Subramanian, presented at The Fifth International Workshop on
Algorithmic Foundations of Robotics, 2002. 57.
“Inkjetted gold conductors
for electronics on plastics”, Daniel C. Huang, Frank Liao, and Vivek
Subramanian, presented at Materials Research Society Spring 2002 meeting. 58.
“Applications of Printing Technology in
Organic Electronics and Display Fabrication”, V. Subramanian, presented at
the Half Moon Bay Maskless Lithography Workshop, DARPA/SRC, 59.
“A 20 nm Gate-Length
Ultra-Thin Body p-MOSFET with Silicide Source/Drain”, J. Kedzierski, P. Xuan,
V. Subramanian, E. Anderson, J. Bokor, T.-J. King, and C. Hu, presented at
the Silicon Nanolectronics Workshop 2000. 60.
“60nm Planarized
Ultra-thin Body Solid Phase Epitaxy MOS-FETs”, P. Xuan, J. Kedzierski, V.
Subramanian, J. Bokor, T-J. King, C. Hu, 58th Annual Device
Research Conference Digest, Pages 67 – 68, 2000. 61.
“High performance 200nm single-grain TFTs
fabricated using a self-aligned germanium seeding technology”, P. Kalavade,
A. R. Joshi, V. Subramanian and K. C. Saraswat, presented
at the 2000 Materials Research Society
Spring Symposium. 62.
“Nanoscale SiGe-Channel
Ultra-Thin-Body Silicon-on-Insulator P-MOSFETs”, Y-C. Yeo, V. Subramanian, J.
Kedzierski, P. Xuan, T-J. King, J. Bokor, and C. Hu, presented at the 1999
International Semiconductor Device Research Symposium. 63.
“Ultra-thin body SOI
MOSFET for Deep-sub-tenth Micron Era”, Y-K. Choi, K. Asano, N. Lindert, V.
Subramanian, T-J. King, J. Bokor and C. Hu, 1999 IEEE International Electron
Device Meeting Technical Digest, pp. 919-921, 1999. 64.
“Sub 50-nm FinFET:
PMOS”, X. Huang, W-C. Lee, C. Kuo, D.
Hisamoto, L. Chang, J. Kedzierski, E. Anderson, H. Takeuchi, Y-K. Choi, K. Asano, V. Subramanian, T-J.
King, J. Bokor and C. Hu, 1999 IEEE International Electron Device Meeting
Technical Digest, pp. 67-70, 1999. 65.
“A bulk-Si-compatible
ultrathin-body SOI technology for sub-100nm MOSFETs”, V. Subramanian, J.
Kedzierski, N. Lindert, H. Tam, Y. Su, J. McHale, K. Cao, T-J. King, J.
Bokor, and C. Hu, Proceedings of the 57th Annual Device Research
Conference, pp. 28-29, 1999. 66.
“Process issues for
deep-submicron electron beam lithography at the Stanford Nanofabrication
Facility”, V. Subramanian and M. King, Electron Beam Lithography for
Nanostructure Fabrication Workshop, Cornell University, Ithaca, NY, January
14-15, 1999. 67.
“Laterally Crystallized
Polysilicon TFTs Using Patterned Light Absorption Masks”, V. Subramanian and
K. C. Saraswat, Proceedings of the 55th Annual Device Research
Conference, 1997, pp. 54-55. 68.
“A Novel Technique for 3-D
Integration: Ge-seeded Laterally Crystallized TFTs”, V. Subramanian and K. C.
Saraswat, 1997 Symposium on VLSI technology Digest of Technical Papers, 1997,
pp. 97-98. 69.
“Response surface
characterization of the deposition of LPCVD SiGe for solid-phase crystallized
poly-TFTs”, V. Subramanian, K. C. Saraswat, H. Hovagimian, and J. Mehlhaff ,
Proceedings of the Second International Workshop in Statistical Metrology,
1997, pp. 94-97. 70.
“Design and
Characterization of SiGe TFT Devices and Process using Stanford’s Test Chip
Design Environment”, M. V. Kumar, V. Subramanian, K. C. Saraswat, J. D.
Plummer, and W. Lukaszek, Proceedings of the 1997 IEEE International
Conference on Microelectronic Test Structures, pp. 143-145. 71.
“Response surface
optimization for high-performance solid-phase crystallized silicon-germanium
thin film transistors”, V. Subramanian, K. C. Saraswat, H. Hovagimian, and J.
Mehlhaff, Proceedings of the SPIE - The International Society for Optical
Engineering, vol.3014, p. 127-32, 1997. 72.
“Optimization and Modeling
of Silicon-Germanium Thin Film Transistors for AMLCD Applications using a
Plackett-Burman Experimental Design V. Subramanian, K. C. Saraswat, H.
Hovagimian, and J. Mehlhaff, First International Workshop on Statistical
Metrology, Honolulu, Hawaii, June 9, 1996 73.
“Accelerated Breakdown in
Thin Oxide Films due to Interfacial Stress and Carrier Depletion”, V.
Subramanian, N. Bhat, and K. C. Saraswat, Materials Reliability in
Microelectronics VI, MRS Symposium proceedings, 1996, pp. 323-328 74.
“A Novel Technique for
In-Situ Monitoring of Crystallinity and Temperature during Rapid Thermal
Annealing of Thin Si/Si-Ge films on Quartz/Glass”, V. Subramanian, L.
Degertekin, P. Dankoski, B. T. Khuri-Yakub, and K. C. Saraswat, Flat Panel
Display Materials II, MRS Symposium, pp.267-72, 1996. |