SFX by Ex Libris Inc.

Title:	Nanoelectromechanical switch with low voltage drive
Source:	Applied Physics Letters [0003-6951] Jang, J E yr:2008

Basic

Full text

Full text available via AIP Journals (American Institute of Physics)

Year:

Volume:

Issue:

Start Page:

Document delivery

Request document via Library/Bibliothek

Users interested in this article also expressed an interest in the following:
description	1.	Danilov, A. "Nanoelectromechanical switch operating by tunneling of an entire C-60 molecule." Nano letters 8.8 (2008): 2393-2398.
description	2.	"RF NEMS Switch Based on Carbon Nanotube Vertical Tweezers." 2006 International Semiconductor Conference 111-114.
description	3.	Lacey, D. "A CMOS compatible back end MEMS switch for logic functions." 2010. 1-3.
description	4.	Zhang, S. "Carbon nanotubes as liquid crystals." Small 4.9 (2008): 1270-1283.
description	5.	Rahman, M. "Scientific duo of carbon nanotubes and nematic liquid crystals." Journal of physics. D, Applied physics 42.6 (2009): 63001-63001.
description	6.	Mehregany, M. "Silicon carbide NEMS logic for high-temperature applications." Proceedings of SPIE--the international society for optical engineering 7679.1 (2010): 76791-76791.
description	7.	Wilson, J. "Chiroptical properties of poly(p-phenyleneethynylene) copolymers in thin films: Large g-values." Journal of the American Chemical Society 124.24 (2002): 6830-6831.
description	8.	Bubnis, G. "Self-assembly and structural behavior of a model rigid C60-terminated thiolate on Au(111)." Chemical Physics Letters 470.4 (2009): 289-294.
description	9.	M Y A Yousif; P Lundgren; F Ghavanini; P Enoksson;, M. "CMOS considerations in nanoelectromechanical carbon nanotube-based switches." Nanotechnology 19.28 (2008): 285204-285204.
description	10.	Danilov, A. "Electronic transport in single molecule junctions: Control of the molecule-electrode coupling through intramolecular tunneling barriers." Nano letters 8.1 (2008): 1-5.
description	11.	Miaudet, P. "Thermo-electrical properties of PVA-nanotube composite fibers." Polymer 48.14 (2007): 4068-4074.
description	12.	Hansen, C. "Polymer-templated self-assembly of a 2-dimensional gold nanoparticle network." Langmuir 24.8 (2008): 3905-3910.
description	13.	Paquet, C. "Nanostructured polymers for photonics." Materials today 11.4 (2008): 48-56.
description	14.	Lee, G. "Carbon nanotube dispersion and exfoliation in polypropylene and structure and properties of the resulting composites." Polymer 49.7 (2008): 1831-1840.
description	15.	Chen, W. "Self-organizing alignment of carbon nanotubes in thermoplastic polyurethane." Macromolecular rapid communications 26.22 (2005): 1763-1767.
description	16.	Zhang, S. "Solid-state spun fibers and yarns from 1-mm long carbon nanotube forests synthesized by water-assisted chemical vapor deposition." Journal of materials science 43.13 (2008): 4356-4362.
description	17.	Dawid, A. "Molecular dynamics simulation study of the liquid crystal phase in small mesogene cluster (9CB)(20)." Materials Science-Poland 30.3 (2012): 212-216.
description	18.	Lisetski, L N. "Dispersions of multiwalled carbon nanotubes in different nematic mesogens : The study of optical transmittance and electrical conductivity." Physica. E, Low-dimensional systems & nanostructures 41.3 (2009): 431-435.
description	19.	Bragg, W. "Liquid crystals." Nature 133.5489 (1934): 445-456.
description	20.	Chae, H. "Materials science - Making strong fibers." Science 319.5865: 908-909.