Track 01: Biosensors

A Biosensor is an analytical tool, used to detect an analyse, which combines a Biological component with a physicochemical detector. Electrochemical biosensors are usually derived from the enzymatic catalysis of the reaction that produces or uses electrons (such enzymes are aptly called redox enzymes). The sensor substrate usually consists of three electrodes; reference electrode, active electrode and counter electrode. Aerometric Biosensors are operated by current production where power is applied between two electrodes. They usually have response times, dynamic distances and sensitivity similar to potentiometric biosensors. The potentiometric biosensor, (which can be produced with zero current) provides a logarithmic response with a high dynamic range. Such Biosensors are usually made by screen printing electrode patterns on a plastic substrate, coated with a continuous polymer and then incorporated into proteins (enzyme or antibody). They have only two electrodes and are extremely sensitive and strong. A microbial biosensor is an analytical tool that combines a microorganism (s) with a visible transducer to create a measurable signal equivalent to analytics filtering.

Related Organizations:

•             IEEE Engineering in Medicine and Biology Society – USA

•             Biomedical Engineering Society - USA

•             American Institute for Medical and Biological Engineering- USA

•             Electrochemical Society- USA

•             The Bio electrochemical– France

•             Society for Biological Engineering- USA

Track 02: Applications for Biosensors

Graphene based enzymatic and non-enzymatic electrode can properly absorb glucose, cytochrome-c, NADH, haemoglobin, HRP, and cholesterol, hydrogen peroxide, AA, UA , DA respectively. Nano capsules are nanoscale shells made of non-toxic polymer. It is the vesicular systems formed by the polymeric membrane that encloses the inner core of the fluid at the nanoscale level. Nano capsules have many uses, including promising medical applications for drug delivery, dietary supplements, nutraceuticals, and self-medication.

Related Societies:

•             Electrochemical Society- USA

•             Society for Biological Engineering- USA

•             Bioelectrochemical Society – France

•             American Chemical Society -USA

•             The Engineering in Medicine and Biology Society –USA

Track 03: Transducers to Biosensors

A Bio transducer is part of the Biosensor system recognition and transmission. It consists of two adjacent parts; a layer of biological recognition and a physicochemical transducer, which works together converts chemical signals into electronic or optical signals. Electronic electronics offers more important advantages than physical, chemical and Biophysical methods, in terms of high sensitivity and new sensory processes, advanced spatial adjustment, facial integration and regular use of semiconductor processing and label-free, detection real time in place in a non-destructive way. Gravimetric biosensors apply the basic rule of response to weight change. Most gravimetric biosensors use small piezoelectric quartz crystals, either as crystalline crystals (QCM), or as bulk / surface acoustic wave (SAW) devices. Pyroelectric biosensors generate electrical energy due to temperature changes. This difference creates a separation in the object, producing a dipole moment at which the gradient of the temperature is referred to. The result is a net voltage across all equipment.

Related Societies:

•             European Federation of Chemical Engineering- France

•             European Federation of National Engineering Associations -Belgium

•             Royal Aeronautical Society -London, UK

•             Biomedical Engineering Society -USA

•             North Central Biomedical Association –USA

Track 04: DNA Chips and Nucleic Acid Sensors

Aptamers are oligonucleotides or peptide molecules interacting with a specific molecule. Aptamers are usually created by selecting them from a large pool of random sequences, but natural aptamers are also available in in riboswitches. Immunosensors composed of a suitable combination of Biomolecule and transducer used together, can be used in certain analytical conditions. Immunosensors tend to rely on the reuse of the same reception area in multiple doses. Biochip is a combination of minute DNA dots connected to a complex area. Scientists are using DNA Biochips to measure the level of gene expression at a time. Each DNA site contains Pico moles of a specific DNA sequence known as a probe. These can be part of a gene or a particle of DNA that is used to reproduce cDNA or cRNA. Probe-target cross breeding combinations are often calculated and detected by fluorophore detection. Targets with a silver or chemiluminescence label to identify the corresponding quantity of nucleic acid sequences in a target. Sensors are devices that respond to physical or chemical events and produce available signals. They add to the human mind's focus on many aspects of modern society. This is because we are less sensitive to chemical or biological processes than to the physical environment (e.g., light, pressure, temperature, or humidity). However, the appropriate chemical or biological layers are strongly linked to quality of life.

Related Societies:

•             Biomedical Engineering Student Society

•             Biomedical Associations of Wisconsin

•             Microscopy society of America -USA

•             The Korean BioChip Society (KBCS)

•             International Association of Nanotechnology -USA

•             Society for Biological Engineering- USA

Track 05: Bioelectronics

Biological features can be measured and modified using electronics, magnets, photonics, sensors, circuits, and algorithms. Applications arise from the basic science of natural medicine through medical treatment, and allow for new discoveries, diagnoses, and treatments by creating novel devices, systems, and analyses. Biomolecular Electronics is a branch of nano-science and technology specializing in the research and technology application of electron transporters in specialized categories of Biomolecule. Although it works with molecules that can donate or receive electrons, Biomolecular electronics has nothing to do with the molecular bases that control the production and distribution of electrical signals in neural cells, i.e. potential action. Bioanalysis is one of the sub-categories of Chemistry that helps to measure Xenobiotic (non-natural concentrations or location of drugs, Metabolites and biological molecules) in the biological system. Biomedicine is a branch of medical science that deals with the application of the principles of natural and physical sciences to medical practices. It learns about our ability to cope with environmental changes.

Track 06: Photonic Sensor Technologies

Photonic Sensing focuses on experimental contributions related to novel principles, and structures or materials for photonic sensors. Optical fibres can be used as sensors to measure strain, temperature, pressure and other quantities by modifying a fiber so that the quantity to be measured modulates the intensity, phase, polarization and wavelength or transit time of light in the fiber. Sensors that vary the intensity of light are the simplest, since only a simple source and detector are required. A particularly useful feature of intrinsic optical fibre sensors is that they can, if required, provide distributed sensing over very large distances. Photonic integrated circuits (PICs) are optically active integrated semiconductor photonic devices which consist of at least two different functional blocks, (gain region and a grating based mirror in a laser...). These devices are responsible for commercial successes of optical communications and the ability to increase the available bandwidth without significant cost increases to the end user, through improved performance and cost reduction that they provide. The most widely deployed PICs are based on Indium phosphide material system. Silicon photonics is an active area of research.

Related Societies:

•             Society for Biological Engineering- USA

•             Princeton Biomedical Engineering Society -USA

•             American Institute for Medical and Biological Engineering -USA

•             Centre for Nanotechnology in Society -USA

•             Georgia Biomedical Instrumentation Society- USA

Track 07: Bio sensing Technology

Bio-sensing technologies are of increasing importance in healthcare, agri-food, environmental and security sectors, and this is reflected in the continued growth of global markets for such technologies. Biomechanics is closely related to engineering, because it often uses traditional engineering sciences to analyse Biological systems. Some simple applications of Newtonian mechanics and/or materials sciences can supply correct approximations to the mechanics of many biological systems. Reliable methodologies are needed for point and stand-off detection of chemical, biological, radiological, special nuclear and explosive (CBRNE) materials. These technological needs are not universally military in nature. For example, there is pervasive interest among diverse disciplines such as medicine, law enforcement, explosive ordinance disposal, Natural environmental protection, industrial manufacturing and food processing in being able to develop capabilities for the rapid detection and identification capabilities for various biochemical markers.

Related Societies:

•             The Optical Society -USA

•             Biomedical Engineering Society – USA

•             International Association of Nanotechnology - USA

•             North Central Biomedical Association - USA

•             International society for optics and photonics – USA

Track 08: Biosensors for Imaging

The field of optical Biosensors has been a growing research area over the last three decades. A wide range of books and review articles has been published by experts in the field who have highlighted the advantages of optical sensing over other transduction methods. Fluorescence is by far the method most often applied and comes in a variety of schemes. Nowadays, one of the most common approaches in the field of optical biosensors is to combine the high sensitivity of fluorescence detection in combination with the high selectivity provided by ligand-binding proteins. In this chapter we deal with reviewing our recent results on the implementation of fluorescence-based sensors for monitoring environmentally hazardous gas molecules. Medical Image Analysis provides a forum for the dissemination of new research results in the field of medical and Biological image analysis, with special emphasis on efforts related to the applications of high-level computer vision, virtual reality and robotics to Biomedical imaging problems.

Track 09: Environmental Biosensors

The majority of reported Biosensor research has been directed toward development of devices for clinical markets; however, driven by a need for better methods for environmental surveillance, research into this technology is also expanding to encompass environmental applications. Biosensors are biophysical devices which can detect the presence of specific substances e.g. sugars, proteins, hormones, pollutants and a variety of toxins in the environment. They are also capable of measuring the quantities of these specific substances in the environment.

Related Societies:

•             Engineering in Medicine and Biology Society –USA

•             Princeton Biomedical Engineering Society -USA

•             Centre for Nanotechnology Society -USA

•             Georgia Biomedical Instrumentation Society -USA

•             Materials Research Society -USA

Track 10: Bioinstrumentation

Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and Biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. To ensure that good quality assurance practices are used for the design of medical devices and that they are consistent with quality system requirements worldwide, the Food and Drug Administration revised the Current Good Manufacturing Practice (CGMP) requirements by incorporating them into the Quality System Regulation, 21 CFR Part 820. An important component of the revision is the addition of design controls.

Related Societies:

•             IEEE Instrumentation and Measurement Society -USA

•             Princeton Biomedical Engineering Society -USA

•             Centre for Nanotechnology in Society -USA

•             Microscopy society of America -USA

•             International Association of Nanotechnology -USA

•             American Chemical Society -USA

•             Materials Research Society -USA

•             MEMS & Sensors Industry Society -USA

Track 11: Advancement in Nanotechnology

Nanolithography is the art and science of etching, writing, or printing at the microscopic level, where the dimensions of characters are on the order of nanometres (units of 10 -9meter, or millionths of a millimetre). This includes various methods of modifying semiconductor chips at the atom ic level for the purpose of fabricating integrated circuits. Nano photonics is the new emerging paradigm where light interacts with Nano-scaled structures and brings forth the mysterious world to research. The combination of Photonics and Nanotechnology giving birth to “Nano photonics” compliments and benefits each other in terms of new functions, materials, fabrication processes and applications.

Related Societies:

•             Biomedical Engineering Society - USA

•             North Central Biomedical Association- USA

•             Royal Aeronautical Society- London, UK

•             Georgia Biomedical Instrumentation Society- USA

•             American Institute for Medical and Biological Engineering- USA

Track 12: Bio MEMS/NEMS

Micro-/nanoelectromechanical systems (MEMS/NEMS) micro-/nanoelectromechanical system (MEMS/NEMS) need to be designed to perform expected functions in short durations, typically in the millisecond to picosecond range. Most mechanical properties are known to be scale dependent, therefore the properties of nanoscale structures need to be measured. For biomes/biomes, Biomes/bones adhesion between biological molecular layer molecular layers and the substrate, and friction and wear of biological layers, can be important. Bionics is the application of Biological methods and systems found in nature to the study and design of engineering systems and modern technology Bionics means the replacement or enhancement of organs or other body parts by mechanical versions. Bionic implants differ from mere prostheses by mimicking the original function very closely, or even surpassing it. Bio robotics is the use of Biological characteristics in living organisms as the knowledge base for developing new robot designs. The term can also refer to the use of Biological specimens as functional robot components. Bio robotics intersects the fields of cybernetics, bionics, Biology, physiology, and genetic engineering.

Related Societies:

•             Alabama Biomedical Society -USA

•             Georgia Biomedical Instrumentation Society -USA

•             North Central Biomedical Association -USA

•             Microscopy society of America -USA

•             International Association of Nanotechnology –USA

Track 13: Gas Sensors

A gas Sensor is a device that detects the presence of gases in an area, often as part of a safety system. This type of equipment is used to detect a gas leak and interface with a control system so a process can be automatically shut down. A gas detector can sound an alarm to operators in the area where the leak is occurring, giving them the opportunity to leave. This type of device is important because there are many gases that can be harmful to organic life, such as humans or animals. Metal oxide-based resistive-type gas sensors are solid-state devices which are widely used in a number of applications from health and safety to energy efficiency and emission control. Nanomaterials such as nanowires, Nano rods, and nanoparticles have dominated the research focus in this field due to their large number of surface sites facilitating surface reactions. Previous studies have shown that incorporating two or more metal oxides to form a heterojunction interface can have drastic effects on gas sensor performance, especially the selectivity. Interdigitated capacitive transducers have been inkjet printed onto flexible substrates and optimized for gas sensing applications. Their characteristics have been improved by tuning the annealing/sintering conditions and making use of additional passivation procedures, such as Ag electroplating with Ni or Parolee-C coating of the whole device surface. Surface acoustic wave sensors are a class of microelectromechanical systems (MEMS) which rely on the modulation of surface acoustic waves to sense a physical phenomenon. The sensor transducers an input electrical signal into a mechanical wave which, unlike an electrical signal, can be easily influenced by physical phenomena. The device then transduces this wave back into an electrical signal. Changes in amplitude, phase, frequency, or time-delay between the input and output electrical signals can be used to measure the presence of the desired phenotype

Track 14: Nanobioelectronics

Nano electronics alludes to the use of nanotechnology in electronic parts. The term covers a various game plan of contraptions and materials with the normal trademark that they are little to the point that between atomic affiliations and quantum mechanical properties ought to be considered generally. Sub-nuclear devices allude to the subdivision of nanotechnology and Nano electronics that is responsible for equipment improvement and design using Nano building squares. All advanced creation of coordinated circuits and electronic devices is possible in light of degrees of progress in sub-atomic gadgets.

• Biometrics
• Nano electronics Devices
• Molecular Electronics
• Nanomaterial’s Electronics
• Nanofabrication

Recommended Conference:

5th International Wireless Conference October 24-25, 2019 Rome, Italy; 6th International Automobile and Mechanical Engineering Conference July 08-09, 2019 Zurich, Switzerland; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom;  International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA;   International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:IEEE Engineering in Medicine and Biology Society, Biomedical Engineering Society, American Institute for Medical and Biological Engineering, the Electrochemical Society, Society for Biological Engineering, The Optical Society, The Bioelectrochemical Society, The Electrochemical Society

IEEE Engineering in Medicine and Biology Society, Biomedical Engineering Society, American Institute for Medical and Biological Engineering, The Electrochemical Society, Society for Biological Engineering.

Track 15: DNA Chips and Nucleic Acid Sensors

DNA Chip is for the most part trusted that a large number of qualities and their items (i.e., RNA and proteins) in a given living being limit in a snared and masterminded way that makes the conundrum of life. Regardless, standard techniques in sub-nuclear science all around work on a "one quality in one examination" premise, which infers that the throughput is outstandingly limited and the "whole picture" of value limit is hard to get. By using surface-bound DNA structures with legitimate redox marks, we can screen target-actuated assistant trading of DNA or Aptamer -specific little molecule tests by estimating electrochemical streams that are explicitly associated with the division between the redox name and the anode surface. We have also shown basic upgrades in recognizing execution through progress of the DNA self-social affair process at anode surfaces or the introduction of nanomaterial-based banner heightening.

• Organisms & Whole Cell Based Biosensors
• Antimeres & Their Biological Application
• Microarray
• Natural & Synthetic Receptors (including molecularity imprinted polymers)

Related Conferences:

6th International Automobile and Mechanical Engineering Conference July 08-09, 2019 Zurich, Switzerland; 5th International Wireless Conference October 24-25, 2019 Rome, Italy; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom; International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA; International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:

Mimicking Body Biosensors Society, London Society for Nanotechnology, International Association of Nanotechnology.

Track 16: Enzyme-Based Biosensors

Impetus - based sensors are more specific than cell based sensors. They have quicker reacts because of shorter dispersal ways. They are costly to make due to the issue of isolating the compound. Glucose biosensor is commonly used biosensor. A compound biosensor is a methodical contraption that merges an impetus considering a transducer keeping the true objective to make a banner with respect to target analyse centre.  Both non-genetic and inherited interferences can absurdly impel or quietness intrinsic impetus works out, with fanatical outcomes. It is fundamental in the headway of drugs as protein activators and inhibitors that impetus practices be unequivocally assessed under physiological and psychotic conditions. Particular biochemical tests have been created for this, some of which rely upon nanostructured materials. There has been an extended excitement for the usage of electrochemical sensors in clinical diagnostics. The coupling of synthetic compounds with electrochemical sensors permits the essential affirmation of metabolites, medicinal drugs, antigens, and antibodies.

• Thiol Biosensor
• Nitric Oxide Biosensors
• Glucose Oxidase Biosensor For Diabetes
• Superoxide Anion Radical Biosensors
• Apoptosis Markers

Related Conferences:

6th Conference International Automobile and Mechanical Engineering July 08-09, 2019 Zurich, Switzerland; 5th International Wireless Conference October 24-25, 2019 Rome, Italy; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom; International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA; International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:

Royal Aeronautical Society- London, UK, Biomedical Engineering Society – USA, North Central Biomedical Association- USA, Georgia Biomedical Instrumentation Society- USA, North Central Biomedical Association- USA.

TRACK 17: Security and Sensing

Wireless Sensor Network (WSN) is a rising development that demonstrates uncommon assurance for various propelled applications both for mass open and military. The identifying advancement united with planning power and remote correspondence makes it rewarding for being abused in riches in future. The thought of remote correspondence advancement in like manner gains distinctive sorts of security perils. The motivation behind this paper is to look into the security related issues and troubles in remote sensor frameworks. We perceive the security perils, overview proposed security parts for remote sensor frameworks. We also talk about the far reaching viewpoint of security for ensuring layered and incredible security in remote sensor frameworks.

• Image Recognition
• Infrared Detectors
• Satellities
• Microwave Detections
• Glass Break Detection
• Compact Surveillance Radar
• Motion Sensors

Related Conferences:

 6th International Automobile and Mechanical Engineering Conference July 08-09, 2019 Zurich, Switzerland; 5th International Wireless Conference October 24-25, 2019 Rome, Italy; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom; International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA; International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:

Fiber Optic Biosensor Society, Biosensors for Whole-Cell Bacterial Society, Nanoscience and Nanotechnology Max Planck Society.

TRACK 18: Nanomaterials & Nanoanalytical systems

Nanomaterials are a working locale of research yet moreover a money related region in full augmentation which keeps an eye on various applications territories. For instance, french creation for the most broadly perceived nanomaterials, (for instance, silica, titanium dioxide, carbon dull) is in the gigantic number of tons. Concerning any progression, one must consider the perils and, if essential, set up standards to verify purchaser prosperity and that of the worker. This paper addresses explicitly inconveniences in portraying these materials, the state of data on human or characteristic lethality and essentials and workplaces responsible for prosperity.

• Nanolithography
• Nanopolymers
• Nanotheranostics
• Nanorobotics
• Nanomaterials & Nanoanalytical Systems
• Nanoelectronics
• Nanobiocomputing

Related Conferences:

6th International Automobile and Mechanical Engineering Conference July 08-09, 2019 Zurich, Switzerland; 5th International Wireless Conference October 24-25, 2019 Rome, Italy; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom; International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA; International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:

Society of Biosensors and sensibility, Society of Biosensors, Society of Biosensor for Detection of Genetically Modified (GM) Crops.

TRACK 19: Photonic Sensor Technologies

Nowadays, optical contraptions and circuits are getting the opportunity to be focal parts in a couple of utilization fields, for instance, prescription, biotechnology, vehicle, avionics, sustenance quality control, science, to give a few precedents. In this novel situation, we propose an absolute overview on facilitated photonic sensors, with specific thought in regards to materials, advancements, structures what's progressively, optical recognizing norms. To this point, recognizing norms by and large used in optical disclosure are shown, focusing on sensor execution features, for instance, affectability, selectivity and range ability. Moreover, a couple of numerical systems used in photonic circuits and contraptions, propagations and arrangement are shown, focusing on their inclinations and drawbacks.

• Quantum and High Powered Lasers
• Security and Process Technology
• Photonic Diagnostic & Biosensors
• Materials & Devices for Photonic Sensing
• Bio photonics
• Bio photonics
• Planar Waveguide Sensors
• Laser Based Sensors & Instruments

Related Conferences:

6th International Automobile and Mechanical Engineering Conference July 08-09, 2019 Zurich, Switzerland; 5th International Wireless Conference October 24-25, 2019 Rome, Italy; 3rd Wind and Renewable Energy Congress June 24-25, 2019 Barcelona, Spain; 6th International Big Data Analysis and Data Mining conference July 25-26, 2019 London, United Kingdom; International Conference on Biosensors June 6 - 7, 2019 San Francisco, USA; International Conference on Bioelectronics, Bioinstrumentation and Biosensors April 24 - 25, 2019 Boston, USA

Related Societies:

The optical society -USA, Biomedical Engineering Society –USA, International Association of Nanotechnology –USA, North Central Biomedical Association- USA, International society for optics and photonics –USA.