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Hugh Dalgleish, G. Kirczenow (2006)
Interface states, negative differential resistance, and rectification in molecular junctions with transition-metal contactsPhysical Review B, 73
David Adams, L. Brus, C. Chidsey, S. Creager, C. Creutz, Cherie Kagan, Prashant Kamat, Marya Lieberman, Stuart Lindsay, Rudolph Marcus, Robert Metzger, M. Michel-beyerle, John Miller, Marshall Newton, D. Rolison, O. Sankey, K. Schanze, J. Yardley, Xiaoyang Zhu (2003)
Charge Transfer on the Nanoscale: Current StatusJournal of Physical Chemistry B, 107
Tomoki Uehara, R. Belosludov, A. Farajian, H. Mizuseki, Y. Kawazoe (2006)
Electronic and Transport Properties of Ferrocene: Theoretical StudyJapanese Journal of Applied Physics, 45
K. Weber, and Hockett, S. Creager (1997)
Long-Range Electronic Coupling between Ferrocene and Gold in Alkanethiolate-based Monolayers on ElectrodesJournal of Physical Chemistry B, 101
H. Haick, J. Ghabboun, D. Cahen (2005)
Pd versus Au as evaporated metal contacts to moleculesApplied Physics Letters, 86
G. Meshulam, N. Rosenberg, A. Caster, L. Burstein, M. Gozin, Shachar Richter (2005)
Construction of dithiol-based nanostructures by a layer-exchange process.Small, 1 8-9
H. Inokawa, A. Fujiwara, Yasuo Takahashi (2001)
Multipeak negative-differential-resistance device by combining single-electron and metal–oxide–semiconductor transistorsApplied Physics Letters, 79
L. Yu, K. Chen, Jie Song, Jium‐Ming Wang, J. Xu, Weiyan Li, Xingxu Huang (2007)
Coulomb blockade induced negative differential resistance effect in a self-assembly Si quantum dots array at room temperatureThin Solid Films, 515
N. Zhitenev, A. Erbe, Zhenan Bao, Weirong Jiang, E. Garfunkel (2005)
Molecular nano-junctions formed with different metallic electrodesNanotechnology, 16
Rui Liu, S. Ke, Weitao Yang, H. Baranger (2006)
Organometallic molecular rectification.The Journal of chemical physics, 124 2
Michael Galperin, M. Ratner, A. Nitzan (2005)
Hysteresis, switching, and negative differential resistance in molecular junctions: a polaron model.Nano letters, 5 1
H. Haick, Olivia Niitsoo, and Ghabboun, D. Cahen (2007)
Electrical Contacts to Organic Molecular Films by Metal Evaporation: Effect of Contacting DetailsJournal of Physical Chemistry C, 111
Shuchun Wang, Wenchang Lu, Qingzhong Zhao, J. Bernholc (2006)
Resonant coupling and negative differential resistance in metal/ferrocenyl alkanethiolate/STM structuresPhysical Review B, 74
R. Wassel, Grace Credo, Ryan Fuierer, D. Feldheim, C. Gorman (2004)
Attenuating negative differential resistance in an electroactive self-assembled monolayer-based junction.Journal of the American Chemical Society, 126 1
Avik Ghosh, P. Damle, S. Datta, A. Nitzan (2004)
Molecular Electronics: Theory and Device ProspectsMRS Bulletin, 29
C. Gorman, and Carroll, Ryan Fuierer (2001)
Negative Differential Resistance in Patterned Electroactive Self-Assembled MonolayersLangmuir, 17
S. Creager, C. Yu, C. Bamdad, Steve O'Connor, Tanya MacLean, E. Lam, Yoochul Chong, G. Olsen, Jiye Luo, M. Gozin, J. Kayyem (1999)
Electron Transfer at Electrodes through Conjugated “Molecular Wire” BridgesJournal of the American Chemical Society, 121
Jiwoong Park, A. Pasupathy, Jonas Goldsmith, A. Soldatov, C. Chang, Y. Yaish, J. Sethna, H. Abruña, D. Ralph, P. McEuen (2003)
Wiring up single moleculesThin Solid Films, 438
Jonathan Green, J. Choi, A. Boukai, Y. Bunimovich, E. Johnston-Halperin, E. Johnston-Halperin, E. Deionno, Yi Luo, Yi Luo, Bonnie Sheriff, Ke Xu, Y. Shin, H. Tseng, J. Stoddart, J. Heath (2007)
A 160-kilobit molecular electronic memory patterned at 1011 bits per square centimetreNature, 445
A. Tivanski, G. Walker (2005)
Ferrocenylundecanethiol self-assembled monolayer charging correlates with negative differential resistance measured by conducting probe atomic force microscopy.Journal of the American Chemical Society, 127 20
M. Reed, Chongwu Zhou, C. Muller, T. Burgin, J. Tour (1997)
Conductance of a Molecular JunctionScience, 278
C. Joachim, M. Ratner (2005)
Molecular Electronics Special Feature: Molecular electronics: Some views on transport junctions and beyondProceedings of the National Academy of Sciences of the United States of America
A. Salomon, R. Arad-Yellin, A. Shanzer, A. Karton, D. Cahen (2004)
Stable room-temperature molecular negative differential resistance based on molecule-electrode interface chemistry.Journal of the American Chemical Society, 126 37
A. Viana, A. Jones, L. Abrantes, M. Kalaji (2001)
Redox induced orientational changes in a series of short chain ferrocenyl alkyl thiols self-assembled on gold(111) electrodesJournal of Electroanalytical Chemistry, 500
S. Lindsay, M. Ratner (2007)
Molecular Transport Junctions: Clearing MistsAdvanced Materials, 19
Chongwu Zhou, M. Deshpande, M. Reed, L. Jones, J. Tour (1997)
Nanoscale metal/self-assembled monolayer/metal heterostructuresApplied Physics Letters, 71
X. Xiao, D. Brune, Jin He, S. Lindsay, C. Gorman, Yuyuan Tian (2006)
Redox-gated electron transport in electrically wired ferrocene moleculesChemical Physics, 326
A. Blum, J. Kushmerick, D. Long, C. Patterson, John Yang, Jay Henderson, Yuxing Yao, J. Tour, R. Shashidhar, B. Ratna (2005)
Molecularly inherent voltage-controlled conductance switchingNature Materials, 4
A. Nitzan, M. Ratner (2003)
Electron Transport in Molecular Wire JunctionsScience, 300
C. Joachim, M. Ratner (2005)
Molecular electronics: some views on transport junctions and beyond.Proceedings of the National Academy of Sciences of the United States of America, 102 25
Molecular‐based electroactive devices (see image) are constructed using nanocavity architecture and ferrocene‐based molecular structures. The reliable operation of these devices is demonstrated by transport measurements. Two negative differential resistance peaks are observed indicating that both redox and resonance transport processes occur.
Small – Wiley
Published: Jan 18, 2008
Keywords: ; ; ;
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