Call for Abstract
Scientific Program
2nd International Conference on Nanomedicine and Nanotechnology, will be organized around the theme “Presenting Excellence of Nanotechnology to Transform the World”
Nanomedicine Meet 2020 is comprised of 17 tracks and 84 sessions designed to offer comprehensive sessions that address current issues in Nanomedicine Meet 2020.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
Diagnostic devices are devices won’t to identify the character or explation for a particular phenomenon, usually associated with a medical condition. Examples of diagnostic devices are resonance imaging apparatuses, temperature sensors or pacemakers. Choose from a good range of high-quality medical diagnostics equipment for monitoring vital sign, pulse, blood heat, weight, and more. Products contain scales, stethoscopes, Doppler’s, and ultrasound, X-ray, and imaging equipment. In education, a diagnostic assay helps recognize a student's learning problems so teachers can provide instruction to remedy those problems. ... Students' performances on those tests let teachers know what cognitive skills or bodies of data students are having trouble with.
- Track 1-1Blood transfusion
- Track 1-2Diagnostic imaging
- Track 1-3Health services
- Track 1-4Patient safety
- Track 2-1Nanoengineering
- Track 2-2Superparamagnetic
- Track 2-3Magnetodendrimers
- Track 2-4Microbiologist
- Track 3-1Plasmonic Nanobiosensors
- Track 3-2Nanobiosensor
- Track 3-3Nanoplasmonics
- Track 3-4Nanobiochemistry
- Track 4-1Pharmaceutical Formulations
- Track 4-2Pharmaceutical Science
- Track 4-3Pharmaceutical Nano tools
- Track 4-4Pharmaceutical Nanosystems
- Track 5-1Clinical trials
- Track 5-2Combination treatment
- Track 5-3Therapeutics
- Track 5-4Theranostics
- Track 6-1 Bionanocomposites
- Track 6-2polymer-nanoparticle
- Track 6-3polynucleic acids
- Track 6-4synthetic biodegradable polymers
The human characteristics of curiosity, wonder, and ingenuity matured as mankind. People round the world are harnessing their curiosity into inquiry and therefore process of scientific methodology. Recent years have witnessed an unprecedented growth in research within the area of nanoscience. There is growing optimism that nanotechnology concern to medicine and dentistry will bring significant advances within the diagnosis, treatment, and prevention of disease. Growing interest within the future medical applications of nanotechnology is resulting in the emergence of a replacement field called nanomedicine
- Track 7-1Info graphic
- Track 7-2impact of nanomaterials.
- Track 7-3Critical infrastructure
- Track 7-4ultra-dense memory
- Track 7-5Nano texturing
Artificial intelligence (AI) is also called machine intelligence. Artificial intelligence (AI) is that the reproduction of human intelligence processes by machines, especially computer systems. These procedures include learning, problem solving, planning, reasoning and self-correction. Particular applications of AI include fine systems speech recognition and machine vision. Digitalization is that the term for the Digital Transformation of society and therefore the economy. It is the method of conversion of analogue information into texts, photographs, and voices, among others. The transformation is passed out over electronic devices like scanners or specialized computer chips. In which the knowledge is organized into binary data that computers can process.
- Track 8-1Artificial Neural Network
- Track 8-2Fuzzy Logic Systems
- Track 8-3Deep Learning
- Track 8-4Analogue-to-Digital Conversion
- Track 8-5GSM Communication
Therapeutic systems are to enhance steps by transporting medicine rendering to a therapeutically rational program which can may select expected actions from a selection of concentration-dependent actions. Nanosystems are inconsistent functional systems organize at the Nano scale and are comprised of characteristic physicochemical properties with huge visions within in the diagnostic applications and therapeutics, ranging from delivery loads to biosensors. Smart nanosystems have the possible to provide personalised therapeutic scheme and diagnostic.
- Track 9-1Smart nanomaterial
- Track 9-2Cancer nanotechnology
- Track 9-3Cancer nanotechnology
- Track 9-4Nano systems
- Track 9-5Theoretical simulation
Nano biotechnology attributes an authorized field of appeal, from organ-on-chip technologies to Nano biosensors, from Nano diagnostics to advanced characterisation and imaging tools, from intelligent drug delivery to artificial bio constructs, and from functional nanostructured surfaces to smart materials and Nano fluidics. Among of those topics, Nano toxicology and possible harmful effect of nanomaterial’s in living organisms should be mentioned: the evaluation of the security of an innovative Nano device is, in fact, a process that ought to start since the very first steps of its concept and style. Specific attention is finally dedicated to the translational and regulatory point of Nano biomedical devices, envisioning their practical applications with the longer term practice.
- Track 10-1Applications of Nanobiotechnology
- Track 10-2Biomolecules
- Track 10-3Plasmonic nanobiosensors
- Track 10-4Biosensors
- Track 10-5Nanozymes
- Track 10-6Antifungal nanomaterials
Nanotechnology has the potential to cause extreme changes within the agricultural industry. The progress of latest nanotech-based tools and equipment may help to extend efficiency and overcome challenges faced by the agricultural industry. Nanotechnology has many applications in altogether stages of production, processing, storing, of agricultural products. Nanotechnology is useful in consider to desalination, remediation, filtration, purification and water treatment. The advantages of nanotechnology for the food industry are expected to grow with time. This new, quickly increasing technology impacts every a part of food production to processing, packaging, transportation, time period and bioavailability of nutrients.
- Track 11-1Nanofertlizer
- Track 11-2Nano herbicide
- Track 11-3Nano herbicide
- Track 11-4Nano membranes
- Track 11-5Nano adsorbents
- Track 11-6Nano scale ingredients
Advanced nanomaterials are originated useful in numerous applications. The study on advanced materials proposals clears pathways for his or her synthesis and utilization of their distinctive properties. Nanomaterial or nanostructured materials are characterised into Nano composites, nonporous material and Nano crystalline materials counting on the phases of matter. Nanoparticles manufactured from way of life are highly dynamic in nature. Nanoparticles are particles that exist on a nanometre scale. They can hold on to physical properties like uniformity, conductance or distinct optical properties that make them desired in materials science and biology. Nanoparticles may or might not display size-related properties that are seen in sufficient particles.
- Track 12-1Metal based nanoparticles
- Track 12-2Nano fabrications
- Track 12-3Food Technology
- Track 12-4Nano photonics
- Track 12-5Nano electronics
Zinc oxide nanoparticles are utilized in numerous applications, contain sunscreens, cosmetics, textiles, and electrical devices. Increased consumer and occupational exposure to potentially poses a risk for toxicity. While many studies have examined the toxicity of little is understood regarding the toxicological impact of inherent defects arising from batch-to-batch variations. It was hypothesized that the presence of varying chemical defects will contribute to cellular toxicity in rat aortic endothelial cells (RAECs). Pristine and defected (oxidized, reduced, and annealed) were prepared and assessed three major cellular outcomes; cytotoxicity/apoptosis, reactive oxygen species production and oxidative stress, and endoplasmic reticulum (ER) stress
- Track 13-1Functional Nanomaterials
- Track 13-2Molecular Engineering
- Track 13-3Nanofabrication
- Track 13-4Scanning Probe Techniques
Nano robotics is that the technology of making machines or robots at or on the brink to the size of a nanometre. The word Nano robotics refers to the section of nanotechnology that involves engineering, designing, and building of Nano robots. These devices are often injected into the patient to perform diagnosis on a cellular level. Such analysis or treatment involves the Nano scale, molecular, or atomic level. The some of uses for Nano robots in drugs include quick analysis or treatment and targeted drug delivery for cancer therapeutics, Nano sized biomedical tool for surgery, pharmacokinetics, disease monitoring and for other purposes.
- Track 14-1Swarm Robotics
- Track 14-2Nano robotics Design and Control
- Track 14-3Human-Robot Interaction
- Track 14-4Industrial Robot Automation
- Track 14-5Medical Robotics
Nano medicine may be a branch of drugs that applies the knowledge and tools of nanotechnology to the anticipation and treatment of disease. Nano medicine comprises the usage of nanoscale things, like biocompatible nanoparticles and Nano robots, delivery, for diagnosis, sensing or actuation purposes during a living organism. Nano medicine is one among the emerging technologies and a neighbourhood of nanotechnology finding applications in healthcare. Nano medicine ranges from the medical applications of nanomaterial in additionally biological devices, to Nano electronics, biosensors, and even promising upcoming applications of molecular nanotechnology.
- Track 15-1 Nano toxicology
- Track 15-2 Diagnostic devices
- Track 15-3Medical Imaging
- Track 15-4Nano biotechnology
- Track 15-5Nano sensors
- Track 15-6Clinical nanomedicne
The theoretical curves and the pKa values the attenuated total reflection−infrared (ATR−IR) spectra within the 4800−700 cm-1 range of nine carboxylic acids and their sodium salts in aqueous solutions are obtained and analysed. Overall, 22 species are studied. Six IR titrations are made from five different acids: acetic acid, malic acid, betaine, glycine, and N, N-((butyloxy) propyl) amino diacetic acid (BOPA). From the spectra of these titrations, the spectra of four sorts of water (acidic, basic, saline, and pure water) are subtracted, giving spectra with flat baselines with none any artificial adjustment. Factor analysis (FA) made from the water-subtracted spectra yield the spectra of the principal species, and their abundances. Titration curves obtained from these precisely fit in the literature. The remaining water bands that aren’t subtracted are assigned to water solute close-bound situations
- Track 16-1Analytical chemistry,
- Track 16-2Bio-organic and bio-inorganic chemistry,
- Track 16-3Organic chemistry
- Track 16-4Inorganic chemistry
- Track 16-5Raman spectroscopy for nanomaterials
A functional nanomaterial may be a compound that at minimum of presents one dimension (length, height, width) within the nanometres scale and has been post-processed either chemically or physically to supply specific properties, like solubility, wettability, fluorescence, strength, ductility, which the raw material did not exhibit. The impetus of scientific community around the world lately has been on Nano Science and technology even as the researchers have envisioned great many applications for these materials earning them rightly the name “functional nanomaterials.” This domain of materials is special since they display extraordinary transitions in their properties in their range regime as compared to their bulk counterparts. The electrical, electronic, optical, thermal, mechanical, or magnetic properties of these classes of materials have opened great avenues for several important applications and redefined and improved the efficiencies of the devices generated out of them.
- Track 17-1Catalysis
- Track 17-2Environmental remediation
- Track 17-3Electronic devices
- Track 17-4Energy devices
- Track 17-5Bio applications of functional nanomaterial
- Track 17-6Bio applications of functional nanomaterial
- Track 17-7Theoretical studies.