1 edition of Molecular Nanowires and Other Quantum Objects found in the catalog.
Written in English
There is a growing understanding that the progress of the conventional silicon technology will reach its physical, engineering and economic limits in about a decade. What will take us beyond 2010 are new molecular and other nanotechnologies that require the efforts of trans-disciplinary teams of physicists, quantum chemists, material and computer scientists, and engineers. This volume represents a unique collection of interdisciplinary review and original papers by experts in molecular nanowires, carbon nanotubes, mesoscopic super- and semiconductors, and theorists in the field of strongly correlated electrons and phonons. Topics include molecular nanojunctions and electronics, mesoscale semiconductors and superconductors, carbon nanotubes, low dimensional conductors, polarons and strongly-correlated electrons in nanoobjects, quantum theory of nanoscale, and new techniques for making nano and mesoscopic sensors and detectors.
|Other titles||Proceedings of the NATO Advanced Research Workshop, Bled, Slovenia from 7 to 9 September 2003|
|Statement||edited by Alexandre S. Alexandrov, Jure Demsar, Igor K. Yanson|
|Series||NATO Science Series, Series II: Mathematics, Physics and Chemistry -- 148|
|Contributions||Demsar, Jure, editor, Yanson, Igor K., editor, SpringerLink (Online service)|
|LC Classifications||QC170-197, QC717.6-718.8|
|The Physical Object|
|Format||[electronic resource] /|
|Pagination||XII, 428 p.|
|Number of Pages||428|
Administration of quantum dots coated with different molecular weights of PEG indicates that differential tissue and organ deposition in mice are time- and molecular-weight-dependent, with larger molecular weight PEG-coated quantum dots clearing more slowly and accumulating more in the lymph nodes, liver, and bone marrow than those coated with. Furthermore, research into nanowires of these materials has intensified due to the enhancement of piezoelectric properties at the nanoscale. In this regard, nanowires of ZnO and the III-nitrides have been extensively studied, but the piezoelectric properties of non-nitride III–V semiconductor nanowires .
Both nanowires and nanotubes can be many micrometres long, making them far easier to work with than other popular molecular toys, such as conjugated molecules and . From quantum mechanics to fluid dynamics, this book systematically treats the broad scope of computer modeling and simulations, describing the fundamental theory behind each level of approximation. Berendsen evaluates each stage in relation to its applications giving the reader insight into the possibilities and limitations of the models.
If you have seen or read about a quantum computer it has probably been made from our technologies. Whether you need to cool your system to milli-Kelvin temperatures, observe the quantum state of trapped cold ions or make and characterise low dimensional structures such as quantum dots and nanowires, our solutions enable you to achieve your goals. Molecular Systems and nanoMaterials for Energy and Health (SyMMES) (“quantum dots”), nanowires and metal halide perovskites. One of the big challenges is the understanding of the nucleation and growth mechanisms, which govern the size and shape of these nano-objects. Another important topic is the precise determination of their surface.
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Molecular Nanowires and Other Quantum Objects (Nato Science Series II:) Softcover reprint of the original 1st ed. Edition by Alexandre S. Alexandrov (Editor) ISBN In particular, molecular switching devices and systems that will self-assemble through molecular recognition are being designed and studied.
Molecular Nanowires and Other Quantum Objects book Many labora tories are now testing new types of these and other reversible switches, as well as fabricating nanowires needed to connect circuit elements together. Molecular Nanowires and Other Quantum Objects.
Editors: Alexandrov, Sasha, Demsar, Jure, Yanson, Igor K. (Eds.) Free Preview. Buy this book eBook ,99 *immediately available upon purchase as print book shipments may be delayed due to the COVID crisis.
ebook access is temporary and does not include ownership of the ebook. Only valid for. molecular nanowires and other quantum objects This book identifies key historical moments and episodes in the birth and evolution of nanoscience, discusses the novel repertory of epistemological concerns of practitioners, and signals sociological propensities.
As Galileo's telescope explored the moon's surface four hundred years ago, nano. NATO Advanced Research Workshop on Molecular Nanowires and Other Quantum Objects ( Bled, Slovenia). Molecular nanowires and other quantum objects. Dordrecht ; Boston: Kluwer Academic Publishers, © (OCoLC) Material Type: Conference publication, Internet resource: Document Type: Book, Internet Resource: All Authors.
Main Molecular Nanowires and Other Quantum Objects Molecular Nanowires and Other Quantum Objects Artur Erbe, Zhenan Bao, David Abusch-Magder, Donald M. Tennant, Nikolai Zhitenev (auth.), Alexandre S. Alexandrov, Jure Demsar, Igor K. Yanson (eds.). Molecular Nanowires and Other Quantum Objects.
Molecular Nanowires and Other Quantum Objects pp | Cite as. Characterization of Nanoscale Molecular Junctions. Authors; Authors and affiliations Buy this book on publisher's site; Reprints and Permissions; Personalised recommendations.
Cite paper. The degenerate MQD with strong electron-vibron coupling has two stable current states (a volatile memory), which might be useful in molecular t: 16 pages, 3 figures, to be presented at the NATO ARW 'Molecular nanowires and other quantum objects.
Nanomaterials, an international, peer-reviewed Open Access journal. Dear Colleagues, Nanostructured materials such as quantum dots (zero-dimensional objects) and nanowires (exhibiting in extreme cases one-dimensional quantum behavior) attract great attention due to their intrinsic properties.
Nanoelectronics refers to the use of nanotechnology in electronic components. The term covers a diverse set of devices and materials, with the common characteristic that they are so small that inter-atomic interactions and quantum mechanical properties need to be studied extensively.
Some of these candidates include: hybrid molecular/semiconductor electronics, one-dimensional nanotubes. Electronic books Conference papers and proceedings Congresses Congrès: Additional Physical Format: Print version: NATO Advanced Research Workshop on Molecular Nanowires and Other Quantum Objects ( Bled, Slovenia).
Molecular nanowires and other quantum objects. Dordrecht ; Boston: Kluwer Academic Publishers, © (DLC) Other applications of nanoparticles are those that stem from manipulating or arranging matter at the nanoscale to provide better coatings, composites, or additives and those that exploit the particles’ quantum effects (e.g., quantum dots for imaging, nanowires for molecular electronics, and technologies for spintronics and molecular magnets).
Books. Publishing Support. Login. Yanson I K and van Ruitenbeek J M Molecular Nanowires and Other Quantum Objects (Dordrecht: Kluwer-Academic) p Rego L G C and Ugarte D Quantum conductance in silver nanowires: correlation between atomic structure and transport properties Phys. Rev. B 65 Crossref Google Scholar.
A nanowire is a nanostructure, with the diameter of the order of a nanometre (10 −9 meters). It can also be defined as the ratio of the length to width being greater than Alternatively, nanowires can be defined as structures that have a thickness or diameter constrained to tens of nanometers or less and an unconstrained length.
At these scales, quantum mechanical effects are important. The development of one-dimensional (1D) molecular nanowires with high spin-polarization is important for both fundamental research and practical applications in nanoscale spintronics.
Herein, we report new 1D metal trihydride molecular nanowires MH3 (M = Sc, Cr, Mn, and Co) with versatile magnetic properties on the basis of first-principles calculations and molecular assembly of their. This volume is intended to orient the reader in the fast developing field of semiconductor nanowires, by providing a series of self-contained monographs focusing on various nanowire-related topics.
Each monograph serves as a short review of previous results in the literature and description of methods used in the field, as well as a summary of the authors recent achievements on the subject.
Book Description. Intensive research on fullerenes, nanoparticles, and quantum dots in the s led to interest in nanotubes and nanowires in subsequent years. Handbook of Nanophysics: Nanotubes and Nanowires focuses on the fundamental physics and latest applications of these important nanoscale materials and structures.
Each peer-reviewed. Co-editor: "Molecular nanowires and other quantum objects", published by Kluwer, Co-organizer of the NATO ARW "Molecular nanowires and other quantum objects", Bled, Slovenia, Sep.
Abstract: Molecular electronics is envisioned as a promising candidate for the nanoelectronics of the future. More than a possible answer to ultimate miniaturization problem in nanoelectronics, molecular electronics is foreseen as a possible way to assemble a large numbers of nanoscale objects (molecules, nanoparticules, nanotubes, and nanowires) to form new devices and.
Nanotechnology is delighted to be hosting this collection on all aspects of nanowires. In the past decade, semiconductor nanowires have been extensively investigated for the next generation of devices including photodetectors, photocatalysis, photovoltaics, thermoelectrics, and quantum information processing, among other applications.
The structural, electronic, and magnetic properties of double metallocene nanowires PnM2 (Pn = C8H6, M = V, Cr, Mn, Co, and Ni) are investigated within the framework of gradient-corrected density functional theory. The PnMn2 nanowire is predicted to be ferromagnetic while other nanowires are either antiferromagnitic or nonmagnetic.
In addition, the PnMn2 nanowire exhibits .Now, Arndt and his team have circumvented those challenges and observed quantum wave-like properties in the largest objects to date—molecules composed .Nanowires are just one exciting structure engineers and scientists are exploring at the nanoscale.
Two other important nanoscale objects are carbon nanotubes and quantum dots. A carbon nanotube is a cylindrical structure that looks like a rolled up sheet of graphite.