Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Sang-Mo Koo
Qiliang Li
Edelstein, M.D.
Richter, C.A.
and
Vogel, E.M.
2005.
Silicon Nanowire Field Effect Transistor Test Structures Fabricated by Top-down Approaches.
p.
171.
Onoa, G Bibiana
O’Reilly, Thomas B
Walsh, Michael E
and
Smith, Henry I
2005.
Bulk production of singly dispersed carbon nanotubes with prescribed lengths.
Nanotechnology,
Vol. 16,
Issue. 12,
p.
2799.
Ahn, Yeonghwan
Dunning, James
and
Park, Jiwoong
2005.
Scanning Photocurrent Imaging and Electronic Band Studies in Silicon Nanowire Field Effect Transistors.
Nano Letters,
Vol. 5,
Issue. 7,
p.
1367.
Mahan, G
2005.
Thermoelectrics Handbook.
p.
17-1.
Wang, Wei
Lu, Fushen
Veca, Lucia Monica
Meziani, Mohammed J.
Wang, Xin
Cao, Li
Gu, Lingrong
and
Sun, Ya‐Ping
2005.
Encyclopedia of Inorganic Chemistry.
Zhang, Zhi-Bin
Liu, Xian-Jie
Campbell, Eleanor E. B.
and
Zhang, Shi-Li
2005.
Alternating current dielectrophoresis of carbon nanotubes.
Journal of Applied Physics,
Vol. 98,
Issue. 5,
Ke, San-Huang
Baranger, Harold U.
and
Yang, Weitao
2005.
Models of electrodes and contacts in molecular electronics.
The Journal of Chemical Physics,
Vol. 123,
Issue. 11,
Koo, Sang-Mo
Li, Qiliang
Edelstein, Monica D.
Richter, Curt A.
and
Vogel, Eric M.
2005.
Enhanced Channel Modulation in Dual-Gated Silicon Nanowire Transistors.
Nano Letters,
Vol. 5,
Issue. 12,
p.
2519.
Lin, Yi
Shiral Fernando, K.A.
Wang, Wei
and
Sun, Ya-Ping
2006.
Carbon Nanotechnology.
p.
255.
Lu, Chenguang
An, Lei
Fu, Qiang
Liu, Jie
Zhang, Hong
and
Murduck, James
2006.
Schottky diodes from asymmetric metal-nanotube contacts.
Applied Physics Letters,
Vol. 88,
Issue. 13,
Massoud, Y.
and
Nieuwoudt, A.
2006.
Expression of Concern: Accurate Resistance Modeling for Carbon Nanotube Bundles in VLSI Interconnect.
p.
288.
Sarto, M.S.
and
Tamburrano, A.
2006.
Multiconductor transmission line modeling of SWCNT bundles in common-mode excitation.
p.
466.
Banerjee, Kaustav
Im, Sungjun
and
Srivastava, Navin
2006.
Can Carbon Nanotubes Extend the Lifetime of On-Chip Electrical Interconnections?.
p.
1.
Banerjee, Kaustav
and
Srivastava, Navin
2006.
Are carbon nanotubes the future of VLSI interconnections?.
p.
809.
Massoud, Y.
and
Nieuwoudt, A.
2006.
Scalable Modeling of Magnetic Inductance in Carbon Nanotube Bundles for VLSI Interconnect.
p.
254.
Zhang, Zhi-Bin
Zhang, Shi-Li
and
Campbell, Eleanor E. B.
2006.
All-around contact for carbon nanotube field-effect transistors made by ac dielectrophoresis.
Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena,
Vol. 24,
Issue. 1,
p.
131.
Wang, Zhenjia
Pedrosa, Hermen
Krauss, Todd
and
Rothberg, Lewis
2006.
Determination of the Exciton Binding Energy in Single-Walled Carbon Nanotubes.
Physical Review Letters,
Vol. 96,
Issue. 4,
Ke, San-Huang
Yang, Weitao
and
Baranger, Harold U.
2006.
Nanotube-metal junctions: 2- and 3-terminal electrical transport.
The Journal of Chemical Physics,
Vol. 124,
Issue. 18,
Choi, Yongho
Johnson, Jason
Moreau, Ryan
Perozziello, Eric
and
Ural, Ant
2006.
Micromachined silicon transmission electron microscopy grids for direct characterization of as-grown nanotubes.
Nanotechnology,
Vol. 17,
Issue. 18,
p.
4635.
Sarto, M.S.
and
Tamburrano, A.
2006.
Electromagnetic Analysis of Radio-Frequency Signal Propagation Along SWCN Bundles.
p.
201.