Journal Article10.1038/NMAT1349
Towards molecular spintronics.
Alexandre Reily Rocha,Víctor M. García-Suárez,Steve W. D. Bailey,Colin J. Lambert,Jaime Ferrer,Stefano Sanvito +5 more
TL;DR: It is demonstrated theoretically that organic spin valves, obtained by sandwiching an organic molecule between magnetic contacts, can show a large bias-dependent magnetoresistance and that this can be engineered by an appropriate choice of molecules and anchoring groups.
read more
Abstract: The ability to manipulate electron spin in organic molecular materials offers a new and extremely tantalizing route towards spin electronics, both from fundamental and technological points of view. This is mainly due to the unquestionable advantage of weak spin–orbit and hyperfine interactions in organic molecules, which leads to the possibility of preserving spin-coherence over times and distances much longer than in conventional metals or semiconductors. Here we demonstrate theoretically that organic spin valves, obtained by sandwiching an organic molecule between magnetic contacts, can show a large bias-dependent magnetoresistance and that this can be engineered by an appropriate choice of molecules and anchoring groups. Our results, obtained through a combination of state-of-the-art non-equilibrium transport methods and density functional theory, show that although the magnitude of the effect varies with the details of the molecule, large magnetoresistance can be found both in the tunnelling and the metallic limit.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Molecular spintronics using single-molecule magnets
Lapo Bogani,Wolfgang Wernsdorfer +1 more
TL;DR: This work reviews the first progress in the resulting field, molecular spintronics, which will enable the manipulation of spin and charges in electronic devices containing one or more molecules, and discusses the advantages over more conventional materials, and the potential applications in information storage and processing.
3.1K
Quantum annealing with manufactured spins
Mark W. Johnson,M. H. S. Amin,Gildert Suzanne,Trevor Lanting,Firas Hamze,Neil G. Dickson,Richard Harris,Andrew J. Berkley,J. Johansson,Paul I. Bunyk,E. M. Chapple,C. Enderud,Jeremy P. Hilton,Kamran Karimi,E. Ladizinsky,N. Ladizinsky,T. Oh,I. Perminov,C. Rich,Murray C. Thom,E. Tolkacheva,C. J. S. Truncik,Sergey Uchaikin,J. Wang,B. Wilson,Geordie Rose +25 more
TL;DR: This programmable artificial spin network bridges the gap between the theoretical study of ideal isolated spin networks and the experimental investigation of bulk magnetic samples, and may provide a practical physical means to implement a quantum algorithm, possibly allowing more-effective approaches to solving certain classes of hard combinatorial optimization problems.
2.1K
Exploiting single-ion anisotropy in the design of f-element single-molecule magnets
TL;DR: In this paper, a qualitative method for predicting the ligand architectures that will generate magnetic anisotropy for a variety of f-element ions is presented to guide the design of stronger single-molecule magnets incorporating the f-elements.
Electron transport in molecular junctions.
TL;DR: An overview of some of the recent advances in electron transport through molecules attached to electrodes is presented and issues, including molecule–electrode contacts, local heating- and current-induced instabilities, stochastic fluctuations and the development of characterization tools are discussed.
1.3K
Molecular-Scale Electronics: From Concept to Function
TL;DR: This Review covers the major advances with the most general applicability and emphasizes new insights into the development of efficient platform methodologies for building reliable molecular electronic devices with desired functionalities through the combination of programmed bottom-up self-assembly and sophisticated top-down device fabrication.
1.1K
References
The SIESTA method for ab initio order-N materials simulation
José M. Soler,Emilio Artacho,Julian D. Gale,Alberto García,Javier Junquera,Javier Junquera,Pablo Ordejón,Daniel Sánchez-Portal +7 more
TL;DR: In this paper, a selfconsistent density functional method using standard norm-conserving pseudopotentials and a flexible, numerical linear combination of atomic orbitals basis set, which includes multiple-zeta and polarization orbitals, was developed and implemented.
Spintronics: a spin-based electronics vision for the future.
Stuart A. Wolf,Stuart A. Wolf,David D. Awschalom,Robert A. Buhrman,J. M. Daughton,S. von Molnar,Michael L. Roukes,Almadena Chtchelkanova,Daryl Treger +8 more
TL;DR: This review describes a new paradigm of electronics based on the spin degree of freedom of the electron, which has the potential advantages of nonvolatility, increased data processing speed, decreased electric power consumption, and increased integration densities compared with conventional semiconductor devices.
11.8K
•Book
Electronic transport in mesoscopic systems
Supriyo Datta
- 01 Jan 1995
TL;DR: In this article, preliminary concepts of conductance from transmission, S-matrix and Green's function formalism are discussed. And double-barrier tunnelling is considered.
6.3K
Density-functional method for nonequilibrium electron transport
TL;DR: In this paper, an ab initio method for calculating the electronic structure, electronic transport, and forces acting on the atoms, for atomic scale systems connected to semi-infinite electrodes and with an applied voltage bias.