Nanosystems Group Publications

Here you can find many of the publications produced by the MITRE Nanosystems Group over the years. Our work initially was focused in the area of nanoelectronics, but we have diversified in recent years and have begun investigating other areas and topics such as nanomaterials, nanosensor and nanopower systems, and multi-scale modeling.

Jump to Topic:

• Multi-Scale Modeling of Nanostructures and Nanosystems
• Nanosensor Systems
• Nanopower Systems
• Integrated Micro/Nanosystems
• Nanomaterials
• Nanoelectronics

Multi-Scale Modeling of Nanostructures and Nanosystems [top]

Classical Scaling of the Quantum Capacitances for Molecular Wires
J. C. Ellenbogen, C. A. Picconatto, and J. S. Burnim
Physical Review A 75, 042102 (2007).
[PDF]

Neutral Atoms Behave Much Like Classical Spherical Capacitors
J. C. Ellenbogen
Physical Review A 74, 034501 (2006).
[PDF]

Nanosensor Systems [top]

Toward Nanometer-Scale Sensing Systems: Natural and Artificial Noses as Models for Ultra-Small, Ultra-Dense Sensing Systems
B. M. Rolfe
MITRE Report No. MP 04W0000169 (November 2004).
[PDF] [Supplemental Materials]

Plasmonic Sensing of Biological Analytes Through Nanoholes
G. M. Hwang, L. Pang, E. H. Mullen, and Y. Fainman
IEEE Sensors Journal 8(12), 2074 - 2079 (2008).

Nanopower Systems [top]

Supercapacitors: A Brief Overview
M. S. Halper and J. C. Ellenbogen
MITRE Report No. MP 05W0000272 (March 2006).
[PDF] [Supplemental Materials]

Integrated Micro/Nanosystems [top]

Designing a Nanoelectronic Circuit to Control a Millimeter-scale Walking Robot
A. J. Gates
MITRE Report No. MP 04W0000312 (November 2004).
[PDF]

Design for a Millimeter-Scale Walking Robot
D. A. Routenberg and J. C. Ellenbogen
MITRE Report No. MP 00W0000010 (May 2000).
[PDF] [Supplemental Materials]

Nanomaterials [top]

Controlling the Structure and Properties of Carbon Nanotubes
M. D. Taczak
MITRE Report No. MP 070015 (January 2007).
[PDF]

A Brief Review of Nanomaterials for Aerospace Applications: Carbon Nanotube-Reinforced Polymer Composites
M. D. Taczak
MITRE Report No. MP 06W0000093 (May 2006).
[PDF]

Nanowire Research and Development: A Survey of Selected Research from 2001 to 2005
M. D. Taczak and B. M. Rolfe
MITRE Report No. MP 05W0000171 (June 2005).
[PDF]

Nanotube-Substrate Interactions: Distinguishing Carbon Nanotubes by the Helical Angle
V. Crespi, A. Kolmogorov, M. H. Schleier-Smith, and J. C. Ellenbogen
Physical Review Letters 92, 85503 (2004).
[PDF]

Nanoelectronics: The Nanocomputer Sequence [top]

Performance Simulation and Analysis of a CMOS/Nano Hybrid Nanoprocessor System
A. C. Cabe and S. Das
Nanotechnology 20(16), 165203 (April 2009).
[PDF]

Designs for Ultra-Tiny, Special-Purpose Nanoelectronic Circuits
S. Das, A. J. Gates, H. A. Abdu, G. S. Rose, C. A. Picconatto, and J. C. Ellenbogen
IEEE Transactions on Circuits and Systems I: Regular Papers 54(11), (November 2007)
[PDF]

Clocking Nanocircuits for Nanocomputers and Other Nanoelectronic Systems
S. Das and M. F. Bauwens
IEEE/ACM Proceedings of the International Symposium on Nanoscale Architectures (October 2007).
[PDF]

System-Level Design and Simulation of Nanomemories and Nanoprocessors
S. Das, C. A. Picconatto, G. S. Rose, M. M. Ziegler, and J. C. Ellenbogen
in Molecular and Nano Electronics Handbook, CRC Press, 5-1 - 5-39 (2007).
[PDF]

Architectures and Simulations for Nanoprocessor Systems Integrated on the Molecular Scale
S. Das, G. Rose, M. M. Ziegler, C. A. Picconatto, and J. C. Ellenbogen
in Introducing Molecular Electronics, Springer-Verlag, Heidelberg (2005).
[PDF]

Scalability Simulations for Nanomemory Systems Integrated on the Molecular Scale
M. M. Ziegler, C. A Picconatto, J. C. Ellenbogen, A. DeHon, D. Wang, Z. Zhong, and C. M. Lieber
Annals of the N.Y. Academy of Science 1006, 312-330 (2003).
[PDF]

Moletronics: Future Electronics
K. Kwok and J. C. Ellenbogen
Materials Today 5(2), 28-37 (February 2002).
[PDF]

Toward Nanocomputers
G. Y. Tseng and J. C. Ellenbogen
Science 294, 1293-1294 (November 2001).
[PDF]

On the Scaling of Electronic Charge-Storing Memory Down to the Size of Molecules
J. S. Burnim
MITRE Report No. MP 01W0000319 (November 2001).
[PDF]

Architectures for molecular electronic computers: 3. Design for a memory cell built from molecular electronic devices
G. Y. Tseng and J. C. Ellenbogen
MITRE Report No. MP 99W0000138 (October 1999).
[PDF]

Architectures for molecular electronic computers: 1. Logic structures and an adder designed from molecular electronic diodes
J. C. Ellenbogen and J. C. Love
Proceedings of the IEEE 88(3), 386-426 (March 2000).
[PDF]
MITRE Report No. MP 98W0000183 (July 1999)
[PDF]

A Brief Overview of Nanoelectronic Devices
J. C. Ellenbogen
MITRE Report No. MP 98W0000024 (January 1998).
[PDF]

Overview of Nanoelectronic Devices
D. Goldhaber-Gordon, M. S. Montemerlo, J. C. Love, G. J. Opiteck, and J. C. Ellenbogen
Proceedings of the IEEE 85(4), 521-540 (April 1997).
[PDF]

Matter as Software
J. C. Ellenbogen
MITRE Report No. MP 98W000084 (March 1997).
[PDF]

Technologies and Designs for Electronic Nanocomputers
M. S. Montemerlo, J. C. Love, G. J. Opiteck, D. J. Goldhaber-Gordon, and J. C. Ellenbogen
MITRE Report No. 96W0000044 (July 1996).
[PDF]

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