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Bridging the Gap between Materials and Nano Sciences through Chemical Engineering
- CheMEN 2018

About Conference

Allied Academies amiably summons all the participants to attend “Annual Spring Conference on Chemical Engineering: From Material Engineering to Nanotechnology” during April 11-12, 2018 at Miami, Florida, USA. CheMEN 2018 will focus on the latest innovations in research fields of Chemical Engineering, Materials Engineering, Nanotechnology, Biomaterials, Nanomaterials and Chemical weapons. It is going to offer a great opportunity to scientists and researchers across the globe to enhance their knowledge in the fields of Chemical Engineering, Materials Science and Nanotechnology.

ChEMEN 2018 enlightens on the theme “Bridging the gap between Materials and Nano sciences through Chemical Engineering” which reflects the importance of Material Science and Nanotechnology in Chemical Engineering and in the production of chemical weapons and biomaterials.

Why to attend?

CheMEN 2018 Conference brings together experts, researchers, scholars and students from all areas of Chemical Engineering, Material Science and Nanotechnology. The conference mainly highlights the role of Chemical engineering in Material Science and Nanotechnology. Materials Science is a syncretic discipline hybridizing metallurgy, ceramics, solid-state physics, and chemistry. Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering. Development of High Performance Polymers and Bioweapons using Chemical Engineering is the key topic of the conference. And looking at the place Miami, it would be a wonderful experience to visit here as it has a great tourist attraction and the trip is really going to be memorable.

The conference will provide a platform to share new ideas relating to recent advancements in Nanotechnology, Materials Engineering and Chemical 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.

Target Audience

  • Materials Engineers
  • Nanotechnologists
  • Chemical Engineers
  • Material Science Researchers
  • Nano scientists
  • Students from Chemical Engineering
    Nanotechnology and Material Science

Scientific Sessions and Tracks

Track 1: Biochemical and Reaction EngineeringIn our environment and our body many types of chemical reactions occur simultaneously and these reactions are catalyzed by biochemicals. ChEMEN 2018 focusses on all the biological devices and methods that would lighten the importance of Biochemical Engineering and its study for the betterment of our environment. There are Biosensors, Bioreactors, Bioplastics composites that uses living organisms or biological molecules to detect the presence of chemicals. Membrane Filtration Process and Filtration & Bioprocessing Strategies are the methods used as an application of Biochemical and Reaction EngineeringMembrane separation processes operate without heating and therefore use less energy than conventional thermal separation processes such as distillationsublimation or crystallization. Through this conference scientists and researchers would be aware about more recent advancements in Environmental Bioengineering and the researches occurring in this field.
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Track 2: Chemical weapons and its ImpactThere are some toxic chemicals that can cause death, injury, temporary incapacitation or sensory irritation through its chemical action. Munitions or other delivery devices designed to deliver chemical weapons, whether filled or unfilled, are also considered weapons themselves. Chemical Weapons are the weapons of mass destruction.  Nerve gastear gas and pepper spray are the examples of chemical weaponsChemical Agents are used to kill or injure human beings because of their toxic properties.  About 70 different chemicals have been used as chemical weapon agents during the 20th century. These agents may be in liquid, gas or solid form. Toxic chemicals and Precursors are the two Classification of Chemical weapons. A lethal agent is designed to injure, incapacitate, or kill an opposing force, or deny unhindered use of a terrain, this is the Military use of Chemical weapons. The chemicals prevent a person's blood and tissue cells from accepting oxygen and cause rapid organ failure. These are some lethal Impacts of Chemical Weapons.
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Track 3: Sustainable EngineeringPrinciples that support sustainable development come under Sustainable Engineering.   It is the idea how to provide a sustainable solution to a technical problem and implementation and production. Sustainable Engineering requires Renewable and Alternative Energy sources for their completion. It comes from a source that is not depleted when used, such as wind or solar power. Sustainable Infrastructure and Materials are necessary for Sustainable Engineering. It covers the development, application, characterization, recycling, remediation, disposal, modeling, and monitoring of engineering materials as part of infrastructure design, development, and management. Sustainable Development and environmental quality is also the key point of the Conference. An energy source based on biological matter – everything from a dung cooking fire or a biomass power station to ethanol-based car fuel is needed as Bioenergy. Liquid bioenergy fuels such as biodiesel (a diesel substitute) and bioethanol which can be used in petrol engines are Biofuels. Biopolymers can be made utilizing waste starch from a harvest that has been developed for sustenance utilize. Through the conference we all will also come to know about how Plastic engineering emphasizes on the development and manufacture of plastic products.
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Track 4: Material Science and EngineeringAbility of a nation to harness nature as well as its ability to cope up with the challenges posed by it is determined by its complete knowledge of materials. Many of the most pressing scientific problems humans currently face is due to the limits of the materials that are available. Thus, breakthroughs in materials science are likely to affect the future of technology significantly. Mining and Metallurgy are the basic topics of material science. Composites are often used in applications that require specific conflicting’ properties such as a high strength and high toughness. In some materials, the surface properties including appearance may be altered by Coatings and thin Films. The microstructure and modification of the industrially-processed surface is of prime interest in terms of determining and optimization properties of the material in practical application, such as corrosion, appearance, adhesion of coatings and tribological properties. The properties of the surfaces of engineering components so that their function and service ability can be improved is checked under Surface Engineering. There is molecule of carbon in the form of a hollow sphereellipsoidtube, and many other shapes called Fullerenes. Fullerenes are similar in structure to graphite, which is composed of stacked Graphene sheets of linked hexagonal rings. 
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Track 5: Polymer Science and technologyPolymers, both natural and synthetic, are created via polymerization of many small molecules, known as monomers. Polymerization occurs via a variety of reaction mechanisms that vary in complexity due to functional groups present in reacting compound and their inherent steric effects. Polymer architecture, Chain length, Crystallinity and Tensile strength are some Properties of Polymeric materials. The tensile and impact properties of the materials are reported together with the results from studies of Deformation micromechanics performed using optical microscopy, transmission electron microscopy, and real-time, small-angle X-ray scattering. Colloids are important in both the natural environment and for manufactured products. A Colloid is mixture where at least two types of substances are placed together. Characterization of Polymer techniques are typically used to determine molecular mass, molecular structure, morphology, thermal properties, and mechanical properties. There are polymer matrices reinforced with Nano-scale fillers. This new class of composite materials has shown improved mechanical and physical properties which come under Polymer Nanocomposites. 
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Track 6: Biomaterials and Medical devices: There are some materials that are engineered to interact with biological systems for a medical purpose - either a therapeutic (treat, augment, repair or replace a tissue function of the body) or a diagnostic one. Biomaterials can be derived either from nature or synthesized in the laboratory using a variety of chemical approaches utilizing metallic components.  They are also used every day in dental applications, surgery, and drug delivery. Smart materials have properties that react to changes in their environment. This means that one of their properties can be changed by an external condition, such as temperature, light, pressure or electricity. Biomimetic materials in tissue engineering are materials that have been designed such that they elicit specified cellular responses mediated by interactions with scaffold-tethered peptides from extracellular matrix (ECM) proteins. Engineered Skin Substitute (ESS) is a full thickness skin replacement product prepared from autologous (patient's own) tissue-engineered skin cells in development for the treatment of severe burns. It is a combination of cultured epithelium with a collagen-fibroblast implant that produces a skin substitute that contains both epidermal and dermal components.
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Track 7: Nanotechnology and NanoengineeringNanoscience and nanotechnology involve the ability to see and to control individual atoms and molecules. Nanoengineering is practiced at nanoscale mainly. Nanofabrication encompasses making things in the Nano-range (10 to 1000 times the size of an atom) and in the micro-range (more than about 1000 times the size of an atom).Nanocomposite carbon-based substrates are a large group of materials promising for medicine and various biotechnologies, particularly for coating biomaterials designed for hard tissue implantation, constructing biosensors and biostimulators or micropatterned surfaces for creation of cell microarrays for advanced genomics and proteomics. Nanoscale materials and objects function differently than their larger counterparts. Nanostructures have a higher surface-to-volume ratio than macroscale objects. This affects their thermal properties, engendering exotic types of elasticity. Surfaces, interfaces and thin films are planar structures that occur on the boundary of a material or at the junction between two different media.
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Track 8: Nano medicine and Drug deliveryNanomedicine is simply the application of nanotechnologies in a healthcare. Today nanomedicines are used globally to improve the treatments and lives of patients suffering from a range of disorders including ovarian and breast cancer, kidney disease and fungal infections. Nano fluidics is the study of the behavior, manipulation, and control of fluids that are confined to structures of nanometer (typically 1–100 nm) characteristic dimensions (1 nm = 10?9 m). While true clinical applications of nanotechnology are still practically inexistent, a significant number of promising medical projects are in an advanced experimental stage. Nano pharmaceuticals offer the ability to detect diseases at much earlier stages and the diagnostic applications could build upon conventional procedures using nanoparticles. They represent an emerging field where the sizes of the drug particle or a therapeutic delivery system work at the Nano scale. Nanorobotics permits robots for precisions and interactions of different function with Nano scale objects, all the robots with Nano scaling are operated at nanoscale resolution. The application of nanomaterials against pathogenic bacteria is a crucial step in the ongoing battle against these microorganisms because the increased development of bacterial resistance to traditional antibiotics has created a great need for the development of new antimicrobial agents.
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Track 9: Regulations in NanotechnologyBecause of the ongoing controversy on the implications of Nanotechnology, there is significant debate concerning whether nanotechnology-based product have merit special government regulation. Nanotoxicology is concerned with the study of the toxicity of nanomaterials, which can be divided into those derived from combustion processes (like diesel soot), manufacturing processes (such as spray drying or grinding) and naturally occurring processes (such as volcanic eruptions or atmospheric reactions). The impact of nanotechnology extends from its medical, ethical, mental, legal and environmental applications, to fields such as engineering, biology, chemistry, computing, materials science, and communications. Potential risks include environmental, health, and safety issues; transitional effects such as displacement of traditional industries as the products of nanotechnology become dominant, which are of concern to privacy rights advocates. Many recent cosmetic or sunscreen products have Nano-sized components.  The health impacts of nanotechnology are the potential effects that the use of nanotechnological devices and materials will have on human health. Nanotechnology's health impacts can be divided into two aspects: the potential for Nano technological revolutions to have medical applications to cure disease, and the potential health hazards pretended by exposure to Nanomaterials.
Chemical Engineering Conference | ChEMEN 2018 | Chemical Engineering Conference USA | Chemical Engineering Meetings USA | ChEMEN Conference Miami | Chemical Engineering 2018 Conference

Track 10: Advancements in TechnologyDue to the evolution of science at a great extent there can be seen Advancements in technology in every field like Materials Engineering, Nanotechnology and Chemical Engineering. Various techniques have been developed to make our life easy. The basic purpose of all research in materials science and technology is to tailor the properties of materials to suit specific applications. Phase transformations are the natural key to the fine-tuning of the structural, mechanical and corrosion properties. Medical imaging technologies allow for the rapid diagnosis and evaluation of a wide range of pathologies. The advances in nanoscale materials such as graphene, carbon nanotubes, and Nano formulated versions of all kinds of materials have led to advances in the tools and techniques required to examine and manipulate them - these advanced tools in turn allow greater understanding and control of nanomaterials, making nanoscale imaging instruments a crucial part of the world of nanotechnology. There are a wide range of nanoscale imaging tools that include microscopic methods such as scanning probe microscopy (SPM), electron microscopy (EM), high resolution optical microscopy as well as different types of spectroscopy. Nanomanufacturing is both the production of Nano scaled materials, which can be powders or fluids. Nanotechnology has given birth to many useful sub technologies, one of them is the Nanolithography. Nanolithography is used in the many fields of applications; it is a branch of nanotechnology which is used for further fabrications of nanometer materials and molecules.
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