Impact Factor: 2.137*
Biosensors and Bioelectronics are the applications of the electronics to biology and medicine. As we know, Biosensor is an analytical device that combines biological component with physicochemical detector. Some of the best examples of Bioelectronics are cardiac pacemaker, blood glucose meter and magnetic resonance imaging. The field of Bioelectronics comprises the subjects of electrical engineering, biology, physics, chemistry and materials science. The electronic gadgets play key role in measuring the biological systems and revolutionized the methods of diagnosis.
Journal of Biosensors and Bioelectronics is a leading bimonthly peer reviewed journal, promoting open access publishing in the collection of major scientific journals available in the scientific society. The journal is using Editorial Manager System for quality peer review process. Editorial Manager is an online manuscript submission, review and tracking systems. Review processing is performed by the editorial board members of Journal of Biosensors and Bioelectronics or outside experts; at least two independent reviewers approval followed by editor approval is required for acceptance of any citable manuscript. Authors may submit manuscripts and track their progress through the system, hopefully to publication. Reviewers can download manuscripts and submit their opinions to the editor. Editors can manage the whole submission/review/revise/publish process.
Journal of Biosensors and Bioelectronics is a scholarly Open Access journal and aims to publish most complete and reliable source of information on the discoveries and current developments in the mode of original articles, review articles, case reports, short communications etc. in all areas of the field and making them freely available through online without any subscriptions to researchers worldwide.
OMICS International has pioneered in organizing international conferences and symposiums at numerous world stages. Having organized more than 100 plus conferences, counting around the globe, OMICS conferences have gained popularity for the quality and crispness in the matter. OMICS International Conferences maintain the refurbished information and novelty, resulting in a vivacious and cerebrating podium, intended at multidirectional flow of knowledge and enhanced scientific collaborations.
This top best scholarly journal is using Editorial Manager® System for online manuscript submission, review and tracking. Editorial board members of the JBSBE or outside experts review manuscripts; at least two independent reviewer’s approval followed by the editor is required for the acceptance of any citable manuscript.
Journal of Biosensors & Bioelectronics is a proud publisher for the conference proceedings of 4th International Conference and Exhibition on Biosensors & Bioelectronics on Sep 28-30, 2015 Hilton Atlanta Airport, USA
A device that uses biological materials to monitor the presence of various chemicals in a substance. A sensor that integrates a biological element with a physiochemical transducer to produce an electronic signal proportional to a single analyte which is then conveyed to a detector.
A scientific discipline that develops and applies methods, instruments and strategies to obtain information on the composition and nature of matter in space and time. Sensors (detectors/transducers) covers a wide category of devices used to monitor, measure, test, analyse data as generated due to changes in a measured norm (usually concentration for chemical sensors).
Biology+ Electronics-The application of electronic devices to living organisms for clinical testing, diagnosis and therapy. The interactions of increased computing power, advances in prosthetic devices, artificial implants, and systems that blend electronic and biological components.
Immunosensors are compact analytical devices in which the event of formation of antigen-antibody complexes is detected and converted, by means of a transducer, to an electrical signal, which can be processed, recorded and displayed. Different transducing mechanisms are employed in immunological biosensors, based on signal generation (such as an electrochemical or optical signal) or properties changes (such as mass changes) following the formation of antigen-antibody complexes. In this chapter, the basics of immunosensors are presented focused on the different transduction techniques used in immunosensing.
Semiconductor device-based sensing of chemical and biological entities has been demonstrated through the use of micro- and nanoscale field-effect devices and close variants. Although carbon nanotubes and silicon nanowires have been demonstrated as single molecule biosensors, the fabrication methods that have been used for creating these devices are typically not compatible with modern semiconductor manufacturing techniques and their large scale integration is problematic. These shortcomings are addressed by recent advancements in microelectronic fabrication techniques which resulted in the realization of nanowire-like structures. Here we report a method to fabricate silicon nanowires at precise locations using such techniques. Our method allows for the realization of truly integrated sensors capable of production of dense arrays.
The term molecular recognition refers to the specific interaction between two or more molecules through non-covalent bonding such as hydrogen bonding, hydrophobic forces. Molecular recognition plays an important role in biological systems. It is observed in between receptor-ligand, antigen-antibody, DNA-protein etc. It can be subdivided into static molecular recognition and dynamic molecular recognition. The differential deflection of the cantilevers was found to provide a true molecular recognition signal despite large nonspecific responses of individual cantilevers. The hybridization of complementary oligonucleotides shows that a single base mismatch between two 12-mer oligonucleotides is clearly detectable.
The art and science of manipulating and rearranging individual atoms and molecules to create useful materials, devices, and systems. It is the study of making microscopic things. It is an advance to the future.
Nanorods are solid nanostructures morphologically similar to nanowires but with aspect ratios of approximately 3-to-5. They are formed from a variety of materials including metals, semiconducting oxides, diamonds (aggregated diamond nanorods produced from fullerenes are the hardest material so far discovered), and organic materials.
Carbon nanotubes (CNTs) are allotropes of carbon. These cylindrical carbon molecules have interesting properties that make them potentially useful in many applications in nanotechnology, electronics, optics and other fields of materials science, as well as potential uses in architectural fields. They exhibit extraordinary strength and unique electrical properties, and are efficient conductors of heat. Their final usage, however, may be limited by their potential toxicity.
The microfluidics biosensor is capable of very high resolution. For example, it can detect the change in cell volume caused by solution changes of less than 1mOsm in osmotic pressure.
Neural Sensors are a rare component that can be found on Jupiter. It is usually found in quantities of 1 - 4. Neural Sensors are most often found by defeating Alad V (Themisto) rather than by killing normal enemies. It can also be found in the Dark Sector mission on Jupiter. As of Update 16.4 Neural Sensors can also drop from Raptor.
Array Biosensor is an optical biosensor system designed especially for simultaneous detection of multiple targets in multiple samples. In this system, antibodies or other "capture" molecules are immobilized in a two-dimensional array on an optical waveguide (as either stripes or spots) and standard fluoro immunoassays are performed within the channels of a multi-channel flow cell placed on the waveguide surface.
Purify and move water application of synthetic biology solar powered. It is also called Phytoactuators.
Electricity production using living microorganisms studying the interrelation between the chemical and electrical phenomena in living organisms.
Food analysis, Study of Biomolecules & their interaction, Drug development, Crime detection, Medical Diagnosis, Environmental Field Monitoring, Quality control, Industrial Process control, Detection systems for biological warfare agents, Manufacture of Pharmaceuticals and replacement organs etc.
With its many superior qualities, photonic sensing technology is increasingly used in early-detection and early-warning systems for biological hazards, structural flaws, and security threats. Photonic Sensing provides for the first time a comprehensive review of this exciting and rapidly evolving field, focusing on the development of cutting-edge applications in diverse areas of safety and security, from biodetection to biometrics.
A miniaturized optical bioprobe package is developed using a 3-D micromirror and is tested for bio-imaging application. A silicon optical bench is designed and micromachined to assemble the fiber, lens, and the 3-D micromirror device
A biosensor is an explanatory gadget, utilized for the identification of an analyte that joins an organic part with a physicochemical detector. The touchy organic component (e.g. tissue, microorganisms, organelles, cell receptors, compounds, antibodies, nucleic acids, and so on.), an organically determined material or biomimetic part that communicates (ties or perceives) the analyte under study. The organically delicate components can likewise be made by natural designing.
Nanosensors are any biological, chemical, or surgical sensory points used to convey information about nanoparticles to the macroscopic world. Their use mainly include various medicinal purposes and as gateways to building other nanoproducts, such as computer chips that work at the nanoscale and nanorobots. Presently, there are several ways proposed to make nanosensors, including top-down lithography, bottom-up assembly, and molecular self-assembly.
Clinically applied biosensor is the glucose monitor, which is used on a routine basis by diabetic individuals to check their blood sugar level. These devices detect the amount of blood glucose in undiluted blood samples allowing for the easy self-testing and monitoring that has revolutionized diabetes management. It can be used both in-vitro and in-vivo.
*Unofficial 2014 Impact Factor was established by dividing the number of articles published in 2012 and 2013 with the number of times they are cited in 2014 based on Google search and the Scholar Citation Index database. If ‘X’ is the total number of articles published in 2012 and 2013, and ‘Y’ is the number of times these articles were cited in indexed journals during 2014 then, impact factor = Y/X