Results 11 to 20 of about 302,812 (176)
Applied Sciences, 2021 The field of molecular electronics is currently experiencing a renaissance [...]
Linda A. Zotti
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Annual Review of Materials Research, 2009 Abstract Molecular electronics lies at the intersection of chemistry with nanoelectronics, and many of the concepts learned in Chapter 7 will be combined with chemical concepts in this chapter. We begin by considering two examples of molecular electronic devices.
D. Beljonne +4 more
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Fabricating Graphene-Based Molecular Electronics via Surface Modification by Physisorption and Chemisorption [PDF]
MoleculesGraphene, a one-atom-thick sp2-hybridized carbon sheet, has enormous potential for fabricating flexible transparent electronics due to its unique electronic and mechanical properties. However, the intrinsic lack of a band gap, the low reactivity, and the
Zhi Li +4 more
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The Electrochemical Society Interface, 2004 Molecular electronics has emerged as an area with both enormous promise and enormous challenges. The idea of using molecules as components in electronic circuits dates back at least to a 1974 article by Aviram and Ratner entitled, “Molecular Rectifiers” [Chem. Phys. Lett., 29, 277, (1974)].
James Tour, Dustin James
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Noncovalent Molecular Electronics [PDF]
The Journal of Physical Chemistry Letters, 2018 Molecular electronics covers several distinctly different conducting architectures, including organic semiconductors and single-molecule junctions. The noncovalent interactions, abundant in the former, are also often found in the latter, i.e., the dimer junctions.
G. Gryn’ova, C. Corminboeuf
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Research Paper: How Alligator-Clip Compounds Affect The I-V Characteristic of Molecular Devices, A DFT Approach [PDF]
فیزیک کاربردی ایران, 2022 In this paper, using density functional theory combined with non-equilibrium Green's function, the effects of alligator-clip compounds on the electronic transport properties of benzene-based molecular devices are investigated.
Fatemeh Bagherloo +2 more
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Correlated Electron Transport in Molecular Electronics [PDF]
Physical Review Letters, 2004 Theoretical and experimental values to date for the resistances of single molecules commonly disagree by orders of magnitude. By reformulating the transport problem using boundary conditions suitable for correlated many-electron systems, we approach electron transport across molecules from a new standpoint.
Delaney, Paul, Greer, J.C.
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Physics Today, 2003 Improvements in our understanding of how molecules transport charge, and how they interface to the macroscopic world, are fueling new devices and applications.
James R. Heath, Mark A. Ratner
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Hybrid molecular graphene transistor as an operando and optoelectronic platform
Nature Communications, 2023 Molecular electronics represents an avenue to enrich conventional electronics, but its reproducibility and scalability are still challenging. Here, the authors report the realization of multifunctional hybrid molecular graphene field effect transistors ...
Jorge Trasobares +15 more
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Journal of Low Power Electronics and Applications, 2022 Molecular Field-Coupled Nanocomputing (FCN) is a computational paradigm promising high-frequency information elaboration at ambient temperature. This work proposes a model to evaluate the signal energy involved in propagating and elaborating the ...
Yuri Ardesi +2 more
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