Conferences related to Molecular Electronics

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2023 Annual International Conference of the IEEE Engineering in Medicine & Biology Conference (EMBC)

The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted full papers will be peer reviewed. Accepted high quality papers will be presented in oral and poster sessions,will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE.


2021 IEEE Photovoltaic Specialists Conference (PVSC)

Photovoltaic materials, devices, systems and related science and technology


2020 IEEE 70th Electronic Components and Technology Conference (ECTC)

ECTC is the premier international conference sponsored by the IEEE Components, Packaging and Manufacturing Society. ECTC paper comprise a wide spectrum of topics, including 3D packaging, electronic components, materials, assembly, interconnections, device and system packaging, optoelectronics, reliability, and simulation.


2020 IEEE International Conference on Plasma Science (ICOPS)

IEEE International Conference on Plasma Science (ICOPS) is an annual conference coordinated by the Plasma Science and Application Committee (PSAC) of the IEEE Nuclear & Plasma Sciences Society.


2020 IEEE International Electron Devices Meeting (IEDM)

the IEEE/IEDM has been the world's main forum for reporting breakthroughs in technology, design, manufacturing, physics and the modeling of semiconductors and other electronic devices. Topics range from deep submicron CMOS transistors and memories to novel displays and imagers, from compound semiconductor materials to nanotechnology devices and architectures, from micromachined devices to smart -power technologies, etc.


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Periodicals related to Molecular Electronics

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Biomedical Engineering, IEEE Reviews in

The IEEE Reviews in Biomedical Engineering will review the state-of-the-art and trends in the emerging field of biomedical engineering. This includes scholarly works, ranging from historic and modern development in biomedical engineering to the life sciences and medicine enabled by technologies covered by the various IEEE societies.


Electron Device Letters, IEEE

Publishes original and significant contributions relating to the theory, design, performance and reliability of electron devices, including optoelectronic devices, nanoscale devices, solid-state devices, integrated electronic devices, energy sources, power devices, displays, sensors, electro-mechanical devices, quantum devices and electron tubes.


Electron Devices, IEEE Transactions on

Publishes original and significant contributions relating to the theory, design, performance and reliability of electron devices, including optoelectronics devices, nanoscale devices, solid-state devices, integrated electronic devices, energy sources, power devices, displays, sensors, electro-mechanical devices, quantum devices and electron tubes.


Engineering in Medicine and Biology Magazine, IEEE

Both general and technical articles on current technologies and methods used in biomedical and clinical engineering; societal implications of medical technologies; current news items; book reviews; patent descriptions; and correspondence. Special interest departments, students, law, clinical engineering, ethics, new products, society news, historical features and government.


Information Technology in Biomedicine, IEEE Transactions on

Telemedicine, teleradiology, telepathology, telemonitoring, telediagnostics, 3D animations in health care, health information networks, clinical information systems, virtual reality applications in medicine, broadband technologies, and global information infrastructure design for health care.


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Most published Xplore authors for Molecular Electronics

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No authors for "Molecular Electronics"


Xplore Articles related to Molecular Electronics

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IEE Colloquium on 'Molecular Electronics' (Digest No.133)

IEE Colloquium on Molecular Electronics, 1990

None


Molecular electronics on its way to RF

2010 IEEE MTT-S International Microwave Symposium, 2010

Molecular devices have lately attracted increasing attention due to some appealing features such as their low production cost, flexibility in the substrate choice, possibility of large area deployment, and possibly higher integration capabilities. While it has been commonly thought that such devices could only display poor frequency performance, recent results have indicated that RF applications are possible. Starting from a ...


Current status of molecular electronics

Images of the Twenty-First Century. Proceedings of the Annual International Engineering in Medicine and Biology Society,, 1989

Recent advances stimulated by several new developments in science and technology that have occurred in the last few years are reviewed. These developments are the emergence of scanning transmission microscopy and the gains in nanolithography which have been fueled by the trend toward miniaturization and compaction in solid-state technology. Two areas of development have emerged as the result: the biological ...


Forty years of molecular electronics

Proceedings of the IEEE, 1997

Discusses the proposal that, in the fifth decade of the twentieth century, the direction of technology, and even of military science, was irreversibly changed by the work of scientists like Townes, Dicke, Basov, Prokhorov, Bloembergen, and many others harnessing the dynamics of molecules. Claims that, molecular electronics, with the harnessing of the solid state (transistors), has seriously affected everything scientists ...


LB films of dye-derivatives as a model system for molecular electronics

Images of the Twenty-First Century. Proceedings of the Annual International Engineering in Medicine and Biology Society,, 1989

The Langmuir-Blodgett (LB) films of dye derivatives, an important model system for molecular electronics, have been studied. The films exhibit thermochromism, chemochromism, photoelectric effects, etc., which may serve as the prototypes of device functions. Some of the results are reported. A simple model has been proposed. It assumes that energy bands are formed at the chromophore-containing interfaces, and shows an ...


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Educational Resources on Molecular Electronics

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IEEE-USA E-Books

  • IEE Colloquium on 'Molecular Electronics' (Digest No.133)

    None

  • Molecular electronics on its way to RF

    Molecular devices have lately attracted increasing attention due to some appealing features such as their low production cost, flexibility in the substrate choice, possibility of large area deployment, and possibly higher integration capabilities. While it has been commonly thought that such devices could only display poor frequency performance, recent results have indicated that RF applications are possible. Starting from a series of simulation results obtained from our groups, we will illustrate some of the most promising candidates in the novel field of RF molecular electronics.

  • Current status of molecular electronics

    Recent advances stimulated by several new developments in science and technology that have occurred in the last few years are reviewed. These developments are the emergence of scanning transmission microscopy and the gains in nanolithography which have been fueled by the trend toward miniaturization and compaction in solid-state technology. Two areas of development have emerged as the result: the biological approach to molecular electronics, using both ideas and materials from biology, and molecular electronics using nonbiological materials.<<ETX>>

  • Forty years of molecular electronics

    Discusses the proposal that, in the fifth decade of the twentieth century, the direction of technology, and even of military science, was irreversibly changed by the work of scientists like Townes, Dicke, Basov, Prokhorov, Bloembergen, and many others harnessing the dynamics of molecules. Claims that, molecular electronics, with the harnessing of the solid state (transistors), has seriously affected everything scientists have done in the past forty years.

  • LB films of dye-derivatives as a model system for molecular electronics

    The Langmuir-Blodgett (LB) films of dye derivatives, an important model system for molecular electronics, have been studied. The films exhibit thermochromism, chemochromism, photoelectric effects, etc., which may serve as the prototypes of device functions. Some of the results are reported. A simple model has been proposed. It assumes that energy bands are formed at the chromophore-containing interfaces, and shows an analogy between LB film diodes and amorphous organic devices.<<ETX>>

  • A defect-tolerant memory architecture for molecular electronics

    This paper presents a defect-tolerant memory architecture for molecular electronics. An augmented crossbar-based memory, where molecules are sandwiched between nanowires, is used as a model to achieve defect tolerance. Defects in the logic circuits for addressing memory are also taken into account. The number of spare rows and columns to form a functioning memory is estimated by computer simulation for various values of defect rate and memory size.

  • New Tools for Molecular Electronics

    Summary form only given. In order for molecular electronics to become a viable technology a number of fundamental scientific issues need to be addressed. This paper discusses results obtained from an experimentally simple crossed- wire tunnel junction, which enables us to interrogate how different factors influence the current-voltage characteristics of metal-molecule-metal junctions. Specifically discussed is how we are using inelastic electron tunneling spectroscopy to understand the mechanism underlying molecular switches as presented in A. Szuchmacher Blum et al. (2005). Additionally describes magnetic directed-assembly procedure for fabricating molecular junctions on the wafer level as stated in D. P. Long et al. (2005)

  • A systems approach to molecular electronics

    Molecular electronics circuits based on crossbar architectures can be utilized for both logic and memory applications, but in order to realize such applications, many things must be simultaneously considered. These include the design of the molecule, the molecule electrode interface, electronically configurable and defect tolerant circuit architectures, methods for bridging the nanometer-scale densities of these circuits to the sub-micrometer densities achievable with lithography, etc. In this talk I will treat such circuits as a system, and discuss how all of these various properties are interrelated. I will also present experimental results of working random- access memory and configurable logic circuits, and FET-based multiplexers capable of bridging length scales.

  • Defect-tolerant molecular electronics

    The integrated circuit, manufactured by optical lithography, has driven the computer revolution for three decades. If we are to continue to build complex systems of ever-smaller components, we must find a new technology that will allow massively parallel construction of electronic circuits at the atomic scale. Our Hewlett-Packard and University of California research team is currently developing the molecular electronics building blocks and computer aided design algorithms for a defect-tolerant reconfigurable architecture which allows one to electrically download the designed complexity of a computer into a chemically assembled regular but imperfect nanostructure.

  • Molecular electronics device modeling for system design

    We have used the Breit-Wigner resonance formula to model a class of molecular electronics devices with the aim to establish an abstract model for a molecular electronic device that can be used in a general cross bar architecture of future nanoelectronic systems. We show that the molecular I-V curves can be characterized by a very small number of variables including the couplings between the contact and leads.



Standards related to Molecular Electronics

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Jobs related to Molecular Electronics

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