Conferences related to Nanobioscience

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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.


ICC 2021 - IEEE International Conference on Communications

IEEE ICC is one of the two flagship IEEE conferences in the field of communications; Montreal is to host this conference in 2021. Each annual IEEE ICC conference typically attracts approximately 1,500-2,000 attendees, and will present over 1,000 research works over its duration. As well as being an opportunity to share pioneering research ideas and developments, the conference is also an excellent networking and publicity event, giving the opportunity for businesses and clients to link together, and presenting the scope for companies to publicize themselves and their products among the leaders of communications industries from all over the world.


2020 59th IEEE Conference on Decision and Control (CDC)

The CDC is the premier conference dedicated to the advancement of the theory and practice of systems and control. The CDC annually brings together an international community of researchers and practitioners in the field of automatic control to discuss new research results, perspectives on future developments, and innovative applications relevant to decision making, automatic control, and related areas.


2020 IEEE International Power Modulator and High Voltage Conference (IPMHVC)

This conference provides an exchange of technical topics in the fields of Solid State Modulators and Switches, Breakdown and Insulation, Compact Pulsed Power Systems, High Voltage Design, High Power Microwaves, Biological Applications, Analytical Methods and Modeling, and Accelerators.


2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII)

The world's premiere conference in MEMS sensors, actuators and integrated micro and nano systems welcomes you to attend this four-day event showcasing major technological, scientific and commercial breakthroughs in mechanical, optical, chemical and biological devices and systems using micro and nanotechnology.The major areas of activity in the development of Transducers solicited and expected at this conference include but are not limited to: Bio, Medical, Chemical, and Micro Total Analysis Systems Fabrication and Packaging Mechanical and Physical Sensors Materials and Characterization Design, Simulation and Theory Actuators Optical MEMS RF MEMS Nanotechnology Energy and Power


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Periodicals related to Nanobioscience

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Biomedical Circuits and Systems, IEEE Transactions on

The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...


Biomedical Engineering, IEEE Transactions on

Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.


Communications Letters, IEEE

Covers topics in the scope of IEEE Transactions on Communications but in the form of very brief publication (maximum of 6column lengths, including all diagrams and tables.)


Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


Communications, IEEE Transactions on

Telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; and communication theory. In addition to the above, ...


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Most published Xplore authors for Nanobioscience

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Xplore Articles related to Nanobioscience

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Interface sensing and cutting of ultra-thin film based on UV-assisted AFM

2015 IEEE 15th International Conference on Nanotechnology (IEEE-NANO), 2015

Ultrasonic vibration (UV)-assisted method, as an innovative nanomachining technology, has competitive advantages compared to traditional atomic force microscopy (AFM) nanomachining methods. However, the UV-assisted machining process by AFM is still an open loop control method for cutting depth and sample mechanical properties. Furthermore, the real-time material/interface sensing is still absent when cutting on ultra-thin film. Detection method of machining object ...


From Submicrosecond to Subnanosecond Pulses - Entering a New Domain of Electric Field-Cell Interactions

2007 IEEE 34th International Conference on Plasma Science (ICOPS), 2007

Summary form only given. By reducing the duration of electrical pulses from microseconds into the nanosecond range, the electric field-cell interactions shift increasingly from the plasma (cell) membrane to subcellular structures. Yet another domain of pulsed electric field interactions with cell structures and functions opens when the pulse duration is reduced to values such that membrane charging becomes negligible, and ...


A novel microfabricated device measures a large fraction of hormone release from individual-cells with high time resolution

2nd Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology. Proceedings (Cat. No.02EX578), 2002

Single-cell assays of hormone or neurotransmitter secretion have applications in cell-based biosensor development, high-throughput screening of drugs and basic science investigations. We are using microsystems technology to make electrochemical electrodes in picoliter-size wells for measuring catecholamine release from. individual cells. By making the well-electrode only slightly larger than the cell, high sensitivity and time resolution are achieved. The electrode can ...


Ultrafast carrier dynamics in single-walled carbon nanotubes probed by feintosecond spectroscopy

InternationalQuantum Electronics Conference, 2004. (IQEC)., 2004

We present studies of the ultrafast carrier dynamics in single-walled carbon nanotubes using femtosecond fluorescence and transient absorption techniques. We find that the dynamics are dependent on excitation intensity and the electronic transitions initially excited


Fabrication of dual patterned nanocavities using double layer nanosphere lithography

2011 11th IEEE International Conference on Nanotechnology, 2011

A new nanosphere lithography technique is presented to produce a periodic nanocavities of two sizes. The process starts by deposition of a bilayer of polystyrene microspheres on photoresist through self assembly as a mask. The spheres act as microlenses to direct UV light both to the centers of the bottom spheres and between these centers, resulting in bigger and smaller ...


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Educational Resources on Nanobioscience

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IEEE.tv Videos

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IEEE-USA E-Books

  • Interface sensing and cutting of ultra-thin film based on UV-assisted AFM

    Ultrasonic vibration (UV)-assisted method, as an innovative nanomachining technology, has competitive advantages compared to traditional atomic force microscopy (AFM) nanomachining methods. However, the UV-assisted machining process by AFM is still an open loop control method for cutting depth and sample mechanical properties. Furthermore, the real-time material/interface sensing is still absent when cutting on ultra-thin film. Detection method of machining object (thin film or substrate) remains an obstacle for AFM machining. Here we introduce an ultra-thin film interface sensing and cutting method based on UV-assisted AFM to realize the material/interface detection on the process of nano-machining. This new approach for sensing and cutting ultra-thin film is validated by our experimental results conducting on ultra- thin films with different thickness at nanoscale.

  • From Submicrosecond to Subnanosecond Pulses - Entering a New Domain of Electric Field-Cell Interactions

    Summary form only given. By reducing the duration of electrical pulses from microseconds into the nanosecond range, the electric field-cell interactions shift increasingly from the plasma (cell) membrane to subcellular structures. Yet another domain of pulsed electric field interactions with cell structures and functions opens when the pulse duration is reduced to values such that membrane charging becomes negligible, and direct electric field-molecule effects determine the biological mechanisms. For mammalian cells, this holds for a pulse duration of less than one nanosecond. In addition to entering a new domain of electric field-cell interactions, entering the subnanosecond temporal range will allow us to use near-field-focusing, wideband antennas, rather than needle or plate electrodes, to generate large pulsed electric fields with reasonable spatial resolution in tissue. Modeling results indicate that electric field intensities of tens (up to perhaps hundreds) of kV/cm with a spatial resolution of a few mm can be generated with prolate-spheroidal reflectors with TEM wave-launching structures, and using state-of-the-art pulsed power technology. In order to study the biological effect of subnanosecond pulses, we have developed a sub-ns pulse generator capable of delivering 250 kV into a high impedance load. The pulse width is approximately 600 ps with a voltage rise of up to 1 MV/ns. The pulses have been applied to B16 (murine melanoma) cells, and the plasma membrane integrity was studied by means of trypan blue exclusion. The results show that temporary nanopores in the plasma membrane are generated, allowing the uptake of drugs or nanoparticles without affecting the viability of the cells.

  • A novel microfabricated device measures a large fraction of hormone release from individual-cells with high time resolution

    Single-cell assays of hormone or neurotransmitter secretion have applications in cell-based biosensor development, high-throughput screening of drugs and basic science investigations. We are using microsystems technology to make electrochemical electrodes in picoliter-size wells for measuring catecholamine release from. individual cells. By making the well-electrode only slightly larger than the cell, high sensitivity and time resolution are achieved. The electrode can detect "spikes" of oxidative current corresponding to the release of individual catecholamine-containing vesicles from bovine adrenal chromaffin cells with millisecond time resolution. In, addition, we have simultaneously used whole-cell patch clamp recording to estimate that more than 60% of catecholamine released from the cell is captured by the well- electrode.

  • Ultrafast carrier dynamics in single-walled carbon nanotubes probed by feintosecond spectroscopy

    We present studies of the ultrafast carrier dynamics in single-walled carbon nanotubes using femtosecond fluorescence and transient absorption techniques. We find that the dynamics are dependent on excitation intensity and the electronic transitions initially excited

  • Fabrication of dual patterned nanocavities using double layer nanosphere lithography

    A new nanosphere lithography technique is presented to produce a periodic nanocavities of two sizes. The process starts by deposition of a bilayer of polystyrene microspheres on photoresist through self assembly as a mask. The spheres act as microlenses to direct UV light both to the centers of the bottom spheres and between these centers, resulting in bigger and smaller nanocavities. The appearance and size of small cavities can be controlled through adjusting exposure and development time. Among the achieved ordered patterns, the diameter of the big cavities ranges from 610 to 660 nm and the small cavities from zero to 250 nm. The diameter of the big cavities and spacing are also tunable by using spheres of different diameters. The approach presented in this paper can be extended to fabrication of mixed arrays of nanocolumns with controlled size.

  • A specific integrated controller for nanomicroscopy and cellular manipulation

    A specific integrated controller for a wireless and autonomous microrobot of 1cm/sup 3/ is presented. The robot is equipped with an AFM probe, an injection needle, a gripper, or a micropipette. Hence, its main functionality and the controller design is focused on nanomicroscopy and cellular manipulation. The circuit manages the robot locomotion unit and its tools with nanometric resolution. Communication is done by means of the IrDA protocol implemented in the controller.

  • Study on a Nanoparticle System for Buccal Delivery of Insulin

    In this paper, a nanoparticle system of insulin (NSI) was prepared for buccal transmucosal delivery of insulin. The average size of the suspending particles was 67.5 nm, and a possible microstructure of the nanoparticles in the system was proposed. The transmucosal ability of insulin was evaluated in rabbits from the views of the hypoglycaemic rate and pharmacokinetics. The average bioavailability of NSI by buccal delivery versus subcutaneous injection is 18.3%. These results indicate that the studied nanoparticle system may be promising vehicles for the buccal delivery of insulin

  • A new design of knife edged-AFM probe for chromosome precision manipulating

    We have studied a new approach to analyzing the genetic information and manipulating the three dimensional structure of human chromosomes by atomic force microscopy (AFM). A novel knife edge-shaped AFM probe device has been designed and fabricated on the basis of micromachining technology for the manipulation of double-stranded DNA and human chromosomes. We attempted to dissect double-stranded DNA and human chromosomes physically using the knife- edged probe under AFM operation. It was possible to dissect the chromosomes into finer and sharper parts compared with the conventional AFM probe.

  • Effect of hydroxyapatite particles on stem cell response in nanofiber scaffolds

    Rotator cuff tears are among the most common shoulder injuries that require surgery. High failure rates of biological graft-based repairs underscore the need for functional alternatives. Specifically, functional grafts must incorporate the gradient of mineralization from tendon to bone in order to be biomimetic. In this study, effects of varying concentrations of mineral content in aligned nanofiber scaffolds on human mesenchymal stem cells (hMSC) are evaluated. It is hypothesized that mineral content will regulate cell response, matrix deposition, and integrin gene expression. hMSC were seeded on aligned nanofiber scaffolds of polylactide-co-glycolide with 0%, 10%, and 15% hydroxyapatite content, and were maintained in chondrogenic medium. Cell proliferation (n=5), collagen deposition (n=5), and gene expression (n=5) for Collagen X, Sox9, osteopontin, osteonectin, and osteocalcin were determined over 42 days. Cell number was found to differ between the non-mineralized and mineralized groups. Significant increase in collagen deposition over time was observed in mineralized scaffold groups, and the 15% group showing significantly higher deposition than the 0% group by day 42. Lower expressions of chondrocyte hyperotrophy marker Collagen X and chondrogenic marker Sox9 and maintained high expressions of osteogenic markers osteopontin, osteonectin, and osteocalcin suggest an osteogenic lineage for the stem cells. In conclusion, addition of HA particles influenced hMSC proliferation, matrix deposition, and may induce an osteogenic differentiation response from the stem cells.

  • Direct partial CH<inf>3</inf> termination into carboxyl terminated diamond surface for biosensor

    Immobilization is an important process of biosensor application. The simplest functionalize diamond surface was done by attached biomolecule on diamond surface with chemical linker compound modification. Carboxyl treatment is one choice for diamond functionalization. Methane gas was diluted with hydrogen gas for CH3 termination as an initial functionalization of diamond to transform to carboxyl termination. Diamond and biomolecule is a couple of highly functionally collaboration for biosensor even with low coverage for carboxyl terminated. This work shows that low coverage of carboxyl (~1%) as the great data with high stability for biosensor applications.



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