nanoengineering-2020
About Conference
About Conference
Nanoengineering-2020 invites all the experts and researchers from the Nanotechnology and Materials Engineering sector all over the world to attend “3rd Edition of International Conference on Materials Technology and Manufacturing Innovations “(Nanoengineering-2020) which is going to be held on May 18-19, 2020 at Amestrdam, Netherlands.
Nanotechnology and Materials Engineering are forthcoming use in healthcare, electronics, cosmetics, and other areas. Nanomaterials are the elements with the finest measurement of size 10-9 meter. The theme of the conference is about “Making Superior Improvements in Nanotech and Materials Engineering to reach new heights”. During the conference International symposiums, Panel Discussion and B2B meetings are organized and also International workshops are conducted based on the specific topics related to Nanotechnology and Materials Engineering.
The properties of many materials change when the size scale of their dimensions approaches nanometers is the foremost interesting things about nanotechnology. Materials scientists work to apprehend those property changes and utilize them in the processing and manufacture of materials at the Nanoscale. The field of materials science covers the discovery, characterization, properties, and quit-use of Nanoscale materials.
The most other engineering majors work with Nanotechnology, but the heart of nanotechnology is Materials Science and Materials Engineering across all the disciples. Nano Mat 2019 conference is also comprised of Best Post Awards, Best Oral Presentation Awards, Young Researchers Forums (YRF) and also Video Presentation by experts. We are glad to welcome you all to join and register for the “3rd Edition of International Conference on Materials Technology and Manufacturing Innovations” which is going to be held during May 18-19, 2020 Amestrdam, Netherlands.
Why to attend
Nanoengineering-2020 offers a great opportunity to make new contacts in the field of Nanotechnology and Materials Engineering which involves the designs and discoveries of new materials. The enlightenment originated when researchers began to use analytical thinking from Physics, Chemistry, and Engineering.
The conference will provide a platform to share new ideas relating to recent developments in Nanotechnology. Material Engineering Scientists and researchers will come to know about more information regarding their research subjects and will be able to establish their view at a global level.
Targeted Audience:
Material Engineers
Nanotechnologists
Chemical Engineers
Material Science Researchers
Pharmacists
Nano-Scientists
Material Chemists
Academic Professors
Pharmaceutical Companies and Markets
Students from Nanotechnology, Chemical, and Material Engineering.
Session Tracks
Track 1: Nanoparticle Technology
Nanoparticle Technology plays significant role in the enactment of nanotechnology in various engineering and industrial fields comprising advanced ceramics, new batteries, electronic devices, engineering catalysts, fundamental ink and paint, biotechnology, drug delivery system, etc., and makes use of the distinctive properties of nanoparticles, which is completely separate from those that of the majority materials. It controls the preparation, handling, application and characterization of nanoparticles. Nanoparticle technology scrutinizes prospect possibilities and different innovations and contains essential knowledge on characterization and the effect of nanoparticles on the surroundings and human beings. So, Nanoparticle technology is also said as revolutionary and new technology.
Track 2: Materials Science and Engineering
For the development of mankind, Materials sciences have played a key role. Materials Science and Engineering (MSE) is an integrative field of science and engineering which inspects how variations in the structure of a material impact its properties. This field comprises of chemical, biomedical, mechanical, electrical, aerospace engineering, civil, physics and chemistry. Materials scientists and engineers improve materials for new applications, expand existing materials to reinforce interpretation and estimate ways in which diverse materials can be used along. Materials-related spectacles and strategies like investigatory and analytical techniques, materials degradation, surfaces and interfaces, failure investigation and nondestructive analysis. It is a discipline that supports both the design and application of materials in society.
Track 3: Nanoelectronics
Nanoelectronics state to the use of nanotechnology in electronic components. The term covers a diverse set of devices and materials, with the similar characteristic that they are so small that inter-atomic relations and substantial mechanical properties need to be deliberate extensively. Nanoelectronics is distinct as nanotechnology which agrees the integration of morally electronic devices, electronic chips and circuits. This type of technology mixture can be described as the ‘More than Moore’ field of expansion. The nanoscale proportions of nanoelectronic components for systems of giga-scale intricacy measured on a chip or in a package. The researchers are exploring different way for designing and producing logic circuits by incorporating photosensitive organic particles into tiny molecules of semiconductor material called quantum dots. This improvement of nanoelectronic components are called as ‘Beyond CMOS’ domain of development. The digital system Integrated with Radio-Frequency(RF)/analog circuits.
Track 4: Pharmaceutical Nanotechnology
Pharmaceutical Nanotechnology compacts with developing forthcoming technologies for improving personalized resolutions for drug delivery systems. Pharmaceutical Nanotechnology encompass applications of nanoscience to pharmacy as nanomaterials, and as campaigns like imaging, diagnostic, drug delivery and biosensors. The drug delivery system clearly influences the rate of absorption, metabolism, distribution, excretion of the drug or other related chemical substances in the body. In accumulation to this the drug delivery system also allows the drug to bind to its target receptor and influence that receptor’s signaling and movement. Stimulatingly pharmaceutical sciences are using nanoparticles to reduce toxicity and side effects of drugs and up to recently did not recognize that carrier systems themselves may enforce risks to the patient. pharmaceuticals have been associated with different types of dendrimers which are large and complex molecules to fight against cancer. Drug delivery and related pharmaceutical enlarged in the context of nanomedicine should be regarded as science and technology of nanometer scale composite systems, comprising of at least two components, one of which is a pharmaceutically active ingredient.
Track 5: Nano Computational Modelling
The newly propelled element emphases on the application of computational fluid dynamics in many agri-food handling applications. The unit uses innovative computing methods and commences industry and other external supported research projects in this field. Modeling is a commanding tool for enhancing and improving process regulator over different unit procedures by obtaining an in-depth indulgent of the sophisticated transport occurrences in food system. This comprises strategies for nanoencapulation, nanoemulsions, nanopackaging, nano delivery systems and other innovative applications. Additionally, considering the prospective of nanotechnology, the unit also abides studies on nano-level food processing. Research and development on several characteristics of nanostructured foods, nano food additives, nanocarrier systems, nanocoatings, and development of nanosensors are under development. The essential developments in multi-scale computer recreation techniques for computational modelling is computational materials science have been made in the last decade as inventers and engineers strive to infuse continuum-based models with more-realistic specifics at quantum and atomistic scales.
Track 6: Material Processing and Manufacturing
Materials Processing and Manufacturing focuses on manufacturing of materials science and materials processing primarily for engineering and technology . The writing also assists as a beneficial reference on materials science for the practitioner involved in manufacturing. Proficiency in materials science goes well beyond accepting the possessions of materials and how those properties can be functioned. Materials scientists must also be proficient at emerging cost-effective methods to amalgamate process and fabricate radical materials that can meet the hassles of a quickly varying commercial marketplace. Scientists in Ohio State’s Department of Materials Science and Engineering are dedicated to this assignment through a wide range of programs. Some of them are Semiconductor process modeling, Phase transformation, Fabrication and testing of advanced micro composite materials, High-temperature intermetallic materials, Modeling of the chemical vapor deposition process.
Track 7: Nanotheronostics
Nanotheranostics is the incorporation of diagnostic and therapeutic purpose in single association consuming the welfares of nanotechnology, is enormously attractive for personalized drugs and Precision Medicine (PM). Nanotheranostics is an expanding field in latest years, which makes usage of “nanotechnology” for diagnostics and therapies of various diseases. The latest advancement in the field of nanotechnology has aided a novel generation of various forms of nanomaterials composed of either polymer or inorganic based nanoparticles to be valuable for nanotheranostics applications. Nanotechnology clamps abundant potential to be explored as a multifunctional platform for extensive series of engineering and biological applications such as molecular beams for disease diagnosis, therapeutic agents for curing of diseases and a vehicle for delivering imaging and therapeutic agents for theranostic applications in living animals and cells. The initiation of nanotheranostics is anticipated to value the pharmaceutical and healthcare industries in the next 5-10 years. Some of the significant features of the nanotechnology towards medicine are reliable detection, price reduction and diagnostics of diseases at an initial stage for optimum treatment.
Track 8: Computational Material Science
Computational Materials Science aims to augment the communication between tentative materials investigation and computational effort on both surviving and fresh progressive materials and their applications. It circulates articles of interest to physicists, chemists and materials researchers and engineers and to other scientists convoluted by means of computational modelling and materials phenomena. Computational methods already play a main part in several materials analyses and will individually become extra persistent as computer control progresses in the decades ahead. The development and application of methods are engaged to compute the atomic and electronic structure of materials. Computational Materials Science also leveraging novel enlargements in statistics and machine knowledge to understand composite simulations and accelerate the scheme of materials. Finite Element Method (FEM) is the highest useful computational method for materials associated design at structural level. Current presentations include materials for electronic applications, nano-electromechanics and energy. Computational materials science includes computational equipments for resolving materials related problems.
Track 9: Nanotechnology in neuro engineering
Neuroengineering is the study and mechanism of the nervous system to augment and renovate. Neuroengineering research efforts individual laboratories the Rice Center for Neuroengineering (RCNE). RCNE is uniquely positioned as a leader in neuroengineering. The mission of the RCNE is to interrelate engineering principals to neuroscience in a system that improves both the science and technology associated to neural systems. Neuroengineering is the analysis and control of the nervous system in edict to develop and renovate neuronal purpose. It progresses technologies to comprehend, repair, enhance, replace or treat the diseases of the nervous system. It also design, paradigm and study devices that interface with living neural tissue. Neuroengineering also examines the diverse nanodevices used to activate certain progressions for tissue expansion and suggest the view on the principal challenges and visions of smearing nanotechnology in tissue engineering. Neurobiology Statistics theory and signal processing are some of the techniques for neuroengineering.
Track 10: Graphene
Graphene is an allotrope form of carbon comprising of a one layer of carbon atoms set in a hexagonal lattice. Graphene is the simple structural element of several different allotropes of carbon, such as graphite, carbon nanotubes, charcoal and fullerenes. Graphene and its band structure & Dirac cones, influence of a grid on doping. Graphene is a versatile platform for nanotheranostics and tissue engineering. It can be deliberated as an indeterminately huge aromatic molecule. Graphene is the toughest material ever verified which conducts heat and electricity proficiently and is nearly transparent. Graphene demonstrates a large and nonlinear diamagnetism, which is more than that of graphite, and can be ascended by neodymium magnets. Spintronics also plays a part in innovative technologies that advent quantum behavior for computing. Graphene spintronics is additionally a kind of science to technology.
Track 11: Nanobiotix
Nanobiotix is a nanomedicine company dedicated for the development of novel treatments and new therapeutics evolving based on the combined applications of nanotechnology and biotechnology for the local treatment of cancer. Nanobiotix researches and progresses biopharmaceutical medicine. Nanobiotix offers oncology nanomedicine treatments to control and treat cancer tumors. Bionanotechnology plays a critical role in both tissue engineering and drug delivery. Nanobiotix has improved a fresh class of therapeutics basing on nanoparticles and nanoxray therapeutics. They comprise of inert nanoparticles designed to enter in the tumor cells. They are injected straight through syringe into tumors, after stimulation by the standard dose of radiation, they relieve free radicals which destroys cancer cells. The lead product of the nanobiotix is NBTXR3 which is a radiosensitizer composed of hafnium oxide nanoparticles.
Track 12: Biomedical nanomaterials
Nanomaterials used in several applications like in biomedical applications, diagnosis, including clinical applications and tissue engineering. Biomedical nanomaterials are used for therapy applications. For example, polymer micelles, dendrimers, polymer-drug conjugates including antibody-drug conjugates are deliberated with respect to their cancer drug delivery properties. Dendrimers are impartial single class of nano-sized materials that are explored to progress new life-saving technologies. Biomedical nanomaterials are also used for imaging, diagnosis and sensors as well as for tissue engineering. After the exhibition of an overview of biomedical nanomaterials, comprising their classification and applications. Nanomaterials are capable to penetrate nanoscale pores of materials, possess extended movement, pass in cells and have amplified surface area per volume permitting for better drug loading. For these causes, nanomaterials are discovery various uses in medicine including fighting cancer, endorsing tissue rejuvenation, reversing aging, limiting inflammation or scar tissue growth, preventing infection and many others.
Track 13: NanoGeo Science
The learning of nanoscale insights accompanied with geological systems is Nanogeoscience. Predominantly, this is interviewed by considering environmental nanoparticles size from 1 to 100 nanometers. The NanoGeoSciences team, works closely with X-ray physical sciences in the Nano-Science Center. Nanoscience is alarmed with inspecting material properties that alter as physical measurement approach the atomic scale and quantum properties become essential. The physical and chemical possessions of the Earth and several other terrestrial planets are subjected on the atomic to nanoscale structure of their constituent rocks, minerals and fluids. Nanogeoscience encompasses the incorporation of microscopy, spectroscopy, and theoretical modeling comprised with experimental and fieldwork learning on the bulk manner connected with nanoscale mechanisms. Electron microscopy and allied spectroscopy approaches have been key techniques in this field for decades.
Track 14: Nanotechnology in Space
In future space missions, Nanotechnology will play an important role. Nanosensors, intensely upgraded great performance materials or extremely proficient propulsions systems, examples are space elevator, protecting satellites from energy weapons, propulsion systems, radiating shielding, anti-satellite weapon counter measure, space instrumentation. The abundant choice for elevator’s cable are carbon nanotubes, consequently nanotechnology is capable to produce carbon-based material that is light in weight yet tough sufficient to resist the forces it would face in space. Nanotechnology could clench the substantial in building space flight more practical. Progressions in nanomaterials make lightweight solar sails and a cable for the space elevator probable. By significantly dropping the quantity of rocket fuel required, these advances could inferior the cost of reaching orbit and roving in space. Furthermore, new materials joined with nanosensors and nanorobots could improve the enactment of spaceships, spacesuits and the equipment used to discover planets and moons, making nanotechnology an imperative part of the ‘final frontier’. A space elevator would create all varieties of revolutionary energies conceivable by dramatically decreasing the cost of transporting things into orbit.
Track 15: Nanophotonics
Nanophotonics or nano-optics is the study of the manners of light on the nanometer scale and of the communication of nanometer-scale substances with light. It is a division of optics, electrical engineering, optical engineering and nanotechnology. It repeatedly comprises metallic components, which can conveyance and emphasis light through surface plasmon polaritons. Nanophotonics is the novel evolving hypothesis where light cooperates with nano-scaled structures and fetches onward the secretive world to research. The amalgamation of Photonics and Nanotechnology giving delivery to “Nanophotonics” salutates and welfares each other in rapports of innovative functions, materials, fabrication processes and applications. The study of light at the nanometer-scale is nanophotonics and plasmonics. Light can individually be engrossed to advert unevenly half its wavelength in size which is a few hundred nanometers for visible light. This boundary can be exceeded by pairing light to electrons at the surface of a metal and generating surface plasmons.
Track 16: Molecular Nanotechnology
Molecular nanotechnology(MNT) encompasses a wide range of applications in the field of chemistry, medicine, electronics and research. It has the capability of retrieving the ability of a material to respond other materials differently for example Nano sensors are one of the biggest inventions of molecular nanotechnology, these sensors have the ability in them to respond the toxic and live saving drugs differently. Smart materials and tools, replicating robots, medical Nano robots all these devices have molecular arrangement in them. Molecular Nanotechnology has great impact to the different sectors of work. Its major benefit is its additional atomic machineries and devices which are more supportive. The perception of mechanosynthesis is the consequence of molecular nanotechnology, which is of great importance in the segments of electronics.
Track 17: Nanofabrication
Nanofabrication is the design and production of campaigns with proportions restrained in nanometers. One nanometer is equal to 10 -9 meters or a millionth part of a millimeter. Nanofabrication is of interest to computer engineers because it unlocks the access to super-high-density microprocessor s and memory chips. It has been recommended that every data bit can be kept in a solitary atom. Resonating this forward, single atom potency straight be competent to signify a byte or word of data. Nanofabrication has also gathered the responsiveness of the scientists, medical industry, the military and the aerospace industry. Nanofabrication contracts with the goods of atoms in a material and concluding ways to protect or save space, time and money in associate with large devices. Nanofabrication issues multidisciplinary and integrative systems from scientists in the wide range of micro to nano structuring and device fabrication. Micro and nanofabrication techniques also have modernized the pharmaceutical and medical fields.
Track 18: Nanotoxicology
The study of the toxicity of nanomaterials, for quantum size effects and enormous surface area to volume division is called Nanotoxicology. When related to the nanomaterials superior counterparts, they have unmatched properties. Nanotoxicology is a segment of bionanoscience which contracts with the learning and presentation of toxicity of nanomaterials. Nanomaterials, even once made of inert elements like gold, converts extremely energetic at nanometer proportions. Nanotoxicological studies are anticipated to regulate whether and to what level these possessions might pose a risk to the environment and to human beings. Nanotoxicology is considered as the assessment of the toxicological belongings of nanoparticles (NPs) by the intent of influential whether they can pose an ecological or communal hazard. Nanotechnology has innovative exponential over the former decade, with nanoscale materials being oppressed in numerous applications and in various disciplines including industry, science, pharmacy, medicine, electronics and communication products.
Track 19: Nanolithography
Nanolithography is predominantly used in several segments of technology from electronic to biomedical. Nanolithography is a division of nanotechnology and the term is processed for imprinting, writing or etching patterns in a microscopic level to produce incredibly small structures. This progression is characteristically used for generating smaller and faster electronic devices such as micro/nano chips and processors. Nanolithography is an extensive term used to define numerous processes for making nano scale designs on diverse media, the best common of which is the semiconductor material that is silicon. Field effect transistors(FET), Quantum dots, gratings, zone plates, nanowires, Micro-Electro-Mechanical Systems(MEMS), Nano Electro Mechanical Systems(NEMS) or semiconductor integrated circuits and photomasks are some of the multigate devices which are included in the applications of nanolithography.
Track 20: Forensic nanotechnology
Nano-forensics is an entirely novel part of the forensic science accompanied with the enlargement of nanosensors, nanotechnical methods for real-time crime scene investigation and terrorist activity inquiries, detecting the presence of explosive gases, biological mediators and filtrates. Forensic Science is an expansive field of subspecialties which use different techniques amended from the natural sciences to acquire criminal or further legitimate evidence. Nanotechnology is beginning to have an influence on the holding of evidence at crime scenes, its examination in the laboratory and its presentation in the court of law. Application of nanotechnology is possible to augment the capability to toxic materials, forensic evidence in tissue, materials and soil. Nano-analysis is generally used in the detection of crimes in nanotechnology which comprises some of the techniques like Scanning Electron Microscopy, Transmission Electron Microscopy, Atomic Force Microscopy, Dynamic Light Scattering and Raman Microscopy. These techniques assist forensic scientists in two different ways, one is by making it conceivable to analyze nano-scaled trials and the other by making use of the exact effects of nanomaterial to recognize and assemble evidence, which would not have been possible by earlier techniques. Some of the novel approaches that ease the way for forensic scientists are DNA extraction from palm-prints, gun residues, fingerprints, explosives and heavy metals which provide conclusive evidence.
Market Analysis
Important Scope:
Nanotechnology is doing very well abroad in nations such as USA, UK, Singapore, Germany, and China etc. in terms of R&D. There has been significant development towards the usage of Nanotechnology in cosmetics, food, and textiles. Nanomedicine is still in the R&D stage and widespread growth is yet to be expected and intensive research is being conducted in breakneck speed.
Materials Engineering is designed to propose comprehensive settings that report topical improvements and new strategies for expansion of innovative materials for global necessities with an objective to connect a dialogue between industries and academic administrations and knowledge transmission from research to industry. Surface Science and Engineering, Biomaterials and Tissue Engineering, Materials Engineering and Engineering, Energy Materials, Mining and Metallurgy, Materials Chemistry, Polymer Technology, Emerging fields in Materials Engineering and Nanotechnology are the essential areas which is covered by Materials Engineering.
The organizing committee has prepared an energizing and informative conference program which includes plenary lectures, symposia and workshops on Nanotechnology, Materials Engineering, and a variety of topics, poster presentations, and various programs for participants from all around the Globe. We invite you to join us at the Nano Mat 2020, where you will be sure to have a communicative experience with intellectuals from all around the world. All members of the Nano Mat Conferences 2020 organizing committee look forward to meeting you in Paris,France.
It has a huge scope in the upcoming generations. It is the third highest successful field when compared with IT and the Internet. Nanotechnology has the potential to turn out to be a more important revolutionary force for business than the industrial revolution or the information technology revolution. In fact, many believe that the combined impact of both the industrial and information revolution may approach the magnitude of change that could result from the commercialization of Nanotechnology. In developed countries research is going on for reducing the weight and increasing the strength of the material which will be required in the aeronautics and automotive industry.
Materials Engineering is an interdisciplinary discipline and frequently labeled as Materials Science and Engineering, which includes the discovery and designing of new materials, with much prominence on solids. Today’s research that contracts with materials science pursue to comprehend and influence the behavior of materials at a variety of measurement scales, ranging from the atomic to the macroscopic levels, making use of practical, theoretical or computational tools as probes. The experimental researches include Nano-science, biological materials, high-thermal materials, the interaction of laser-materials and electrochemical methods with several applications from medicine to renewable energy.
In Eastern Europe, Materials Services is one of the leading materials trading and processing specialists. With companies in Poland, the Czech Republic, Hungary, Slovakia, Romania, Serbia, Bulgaria and Turkey, plus sales offices in Croatia and Lithuania.
Major Association across the Globe:
The American Ceramic Society (Acers)
American Chemical Society (ACS)
American Physical Society (APS)
The Materials Information Society (ASM International)
The Materials Research Society (MRS)
Microscopy Society of America (MSA)
The Minerals, Metals & Materials Society (TMS)
Sigma Xi: The Scientific Research Society
International Society for Optical Engineering (SPIE)
Major Universities of Nanotechnology and Material Engineering in Europe:
University Rovira
Jaume University
National University of Science and Technology
Novosibirsk State University
Peter the Great St. Petersburg Polytechnic University
Jonkoping University
Samara National Research University
West University of Timisoara
Advanced Materials Science & Engineering
Master of Science Product Refinement
Advanced Materials Science & Engineering
Master in Engineering Materials Science
Master in Macromolecular Materials
Master in Product Development and Materials Engineering
Major Universities in World:
International Master Degree Program in Applied Materials Science (National Central University)
Master in Chemical and Materials Engineering (National Central University)
Master in Material Science & Engineering (National Central University)
Master of Engineering in Material Science & Engineering (University of Maryland, A. James Clark School of Engineering)
M.C. in Materials Science and Nanoengineering (Sabanci University)
Master in Advanced Materials Science
Master in Advanced Metallic Materials and Engineering
Master in Engineering and Technology - Materials Science (NMSTU)
Master in Inorganic Nanomaterials
Master in Materials Science (Novosibirsk State University)
Master in Nanotechnology and Materials for Micro- and Nanosystems
Master in Quantum Physics for Advanced Materials Engineering
Master of Engineering and Technology - Metallurgy (NMSTU)
Major Industries in Nanotechnology and Material Engineering:
NanGenex
Technoorg Linda
ThalesNano
GetNano Ltd
Nano Sniff technologies
Nanoshel
Icon Analytical Equipment
Nanomics Technologies