Webinar on Catalysis and Chemical Engineering will be held on May 5, 2020 accommodating proficiency gathering of academic and industrial expertise with the Theme: Expanding new horizons in advances of Catalysis and Chemical Engineering. This webiar provides a platform to share new ideas and advancing technologies in Euro Catalysis 2020. This webinar can focus on new concepts and approaches.
A very spectaculars day were in the European webinar is blooming to have your presence by cherishing all the new bees and the researchers across the globe to radiate your expertise in Catalysis and Chemical Engineering. This will be marvelous viability for the researchers, students, and delegates from universities and institutes to intermingle with the practitioners and industry professionals working in the field of Catalysis.
Euro Catalysis 2020 objective is to bring together all Catalysis and Chemical Engineering professionals and academicians from all areas of Chemistry and associated disciplines. Euro Catalysis webinar comprises of keynote and plenary sessions by renowned personalities from around the globe. These webinar will provide an opportunity for Catalysis scientists, Chemical Engineering, academics, and specialists to exchange research evidence and innovative ideas on issues related to Catalysis.
Longdom proffers our immense pleasure and honor in extending you a warm invitation to attend Euro Catalysis - 2020. It is focusing on ‘Expanding new horizons in advances of Catalysis and Chemical Engineering’ to enhance and explore knowledge among Chemistry Departments and to establish corporations and exchanging ideas. Providing the right stage to present stimulating Keynote talks, Plenary sessions, Discussion Panels, B2B Meetings, Poster symposia, Video Presentations, and Workshops.
Who Can Attend?
Assist/Assoc/Professors |
Research Institutes and Members |
Departments Head/Deans |
Manufacturing Companies |
Research Scholars |
Directors of Companies and Organizations |
Graduates and Post Graduates |
Catalysis Societies and Associations |
Catalysis and Chemical Engineering Group Members |
Government Officials and NGO’S |
Scientific Sessions:
Scientific session on Advanced Synthesis, Catalytic systems, and New Catalysts
Catalysis is the expansion in the rate of a synthetic response because of the cooperation of an extra substance called a catalyst. As a rule, responses happen speedier with a catalyst since they require less enactment vitality.
Scientific session on Advances in Catalysis
All aspects of catalysis and includes heterogeneous and homogeneous catalysis, and biocatalysts. Modern investigation of catalytic reactions requires a multi-technique approach where each experimental tool, as well as theoretical models, provide specific information.
Scientific session on Catalysis and Applications
Catalysts are substances which, when added to a response, increment the rate of reaction by furnishing another response pathway with lower activation energy(Ea). They do this by advancing a legitimate introduction between responding particles. In natural chemistry , catalysts are known as chemicals. Catalysis impacts the earth by expanding the proficiency of mechanical procedures, however, catalysis additionally assumes an immediate part in nature. There is a reactant part of chlorine-free radicals in the breakdown of ozone. These radicals are framed by the activity of bright radiation on chlorofluorocarbons (CFCs). A standout amongst the clearest uses of catalysis is the hydrogenation (response with hydrogen gas) of fats utilizing nickel catalyst to create margarine. Numerous different foodstuffs are prepared through biocatalysis.
Scientific session on Biocatalysis and Biotransformation
The impact of biocatalysis in the future will be the enlarge of the ability to use enzymes to catalyze chemical reactions in industrial processes, including the manufacture of drug material, flavors, fragrances, electronic chemicals, polymers—chemicals that literally impact almost every facet of your life. It has become a substitute method of choice for the production of fine chemicals at high yields and excellent selectivity under mild reaction condition.
Scientific session on Catalysis and Energy
Catalysis has turned into a key issue in tackling a considerable lot of the present energy challenges. Multidisciplinary advances from chemistry, physics, and materials science have given profound knowledge into catalyst synthesis, structural and compositional alteration, and robotic comprehension with sub-atomic and nuclear level exactness. At the nanoscale, the surfaces or interfaces of a catalytic material structure strongly impact the physical and compound properties of the material because of the high surface-to-volume proportion. One of the specialized examination describes the mechanical assembly as a "procedure and hardware to get exothermal reactions, specifically from nickel and hydrogen". The gadget worked by implanting heated hydrogen into nickel powder, transmuting it into copper and delivering abundant heat.
Scientific session on Catalysis and Nanotechnology
Nanotechnology and Nanoscience include the capacity to see and to control individual particles and atoms. Everything on Earth is comprised of atoms—the food we eat, the garments we wear, the buildings and houses we live in, and our own bodies. Catalysts, heterogeneous, homogeneous and chemical, are generally nanoparticles. Enthusiasm for nanoscience and in nanotechnology as of late centered consideration around the chance to create catalysts that display 100% selectivity for required item, hence removing byproducts and wiping out waste. Regenerative nanomedicine is one of the medical applications of nanotechnology. It ranges from the medical applications of nanomaterials to Nanoelectronics biosensors, and the future uses of sub-atomic nanotechnology, for example, natural machines. Nanomedicine deals came to $16 billion out of 2015, with at least $3.8 billion in nanotechnology R&D being contributed each year.
Scientific session on Catalysis and Zeolites
Zeolites are the most important heterogeneous catalysts with numerous large-scale applications including cracking, petrochemistry, fine chemical synthesis, and environmental protection. This themed issue evidences the significant impact of zeolites in catalysis.
Scientific session on Catalysis for Renewable Sources
Renewable energy source is vitality that is gathered from renewable resources, which are normally renewed on a human timescale, for example, daylight, wind, rain, tides, waves, and geothermal heat.
Scientific session on Catalytic Materials
Catalytic materials are those solids that enable the substance response to happen proficiently and cost-adequately. Photocatalytic properties of metal oxide nanoparticles enriched with noble metal clusters that show great oxidative properties upon illumination with UV or visible light. Our materials support chemical reactions that can degrade organic contaminants and other pollutants, as well as pathogens. Porous materials consisting of organic linkers connected by metal ions provide framework scaffolds for heterogeneous catalysis, which is based on the organic, or inorganic components.
Scientific session on Chemical Engineering
Chemical Engineering addresses the physical science application (e.g., chemistry and physics), and life sciences with mathematics and economics, the process of changing raw materials or chemicals into more useful or valuable forms. In addition to developing useful materials, modern chemical engineering is also concerned with pioneering valuable new materials and new methods such as nanotechnology, fuel cells, and biomedical engineering. The global chemical industry and market analysis, estimated at the U.S. $2.4 trillion, is one of the fastest-growing business sectors of the manufacturing industry. It also shipped 3.4 billion dollars’ worth of chemicals globally across regions in 2009.
Scientific session on Chemical Kinetics and Catalysis
Chemical kinetics is key for understanding various procedures, for instance how food is metabolized, how pharmaceuticals assume a delightful part in the biological system, and how pollutants that are delivered by gas ignition are changed over for release into the air. Chemical Kinetics and Catalysis address this difficulty and give appropriate content to the up and coming generation of researchers in this field. The atomic expansion of hydrogen particles to ethylene is a prototype of asymmetry forbidden reaction. Besides, late hypothetical computations have demonstrated that the obstruction for a lessened symmetry path isn't high, therefore in this procedure catalysis for the response is in particular.
Scientific session on Chemical Synthesis and Catalysts Synthesis
This field of study amalgamate facet of organic, organometallic, and inorganic chemistry. Synthesis forms a considerable component of most programs in this area. Mechanistic scrutiny are often undertaken to discover how an unexpected product is formed or to rearrange the recital of a catalytic system. Because synthesis and catalysis are essential, to the construction of new materials, Catalysts are progressively used by chemists busy in fine chemical synthesis within both industry and academia. Today, there prevail huge choices of high-tech catalysts, which add enormously to the repertoire of synthetic possibilities. However, catalysts are intermittently fickle, sometimes grueling to use and almost always require both skill and experience in order to achieve optimal results.
Scientific session on Computational Catalysis
Computational catalysis is a branch of chemistry that uses computer simulation to help with taking care of chemical issues. It uses techniques for theoretical chemistry, fused into proficient system programs, to compute the structures and properties of molecules and solids. Computational devices in view of quantum mechanics are utilized to associate the composition, structure, and reaction environment to elementary reaction rates, empowering a reasonable outline of new materials and frameworks. computational catalysis is normally used when a scientific strategy sufficiently built up that it can be computerized for usage on a computer.
Scientific session on Environmental and Green Chemistry
Environmental chemistry is the logical investigation of the synthetic and biochemical phenomena that happen in natural places. It can be characterized as the investigation of the sources, responses, transport, impacts, and fates of chemical species noticeable all around, soil, and water conditions; and the impact of human action and natural action on these. Environmental chemistry is an interdisciplinary science that incorporates atmospheric, aquatic and soil chemistry, and in addition, intensely depending on logical science and being identified with ecological and different territories of science. Environmental chemistry is the investigation of synthetic procedures happening in the earth which are affected by mankind's exercises. Green science, likewise called sustainable chemistry, is a territory of chemistry and chemical engineering concentrated on the outlining of items and procedures that limit the utilization and age of risky substances. Environmental chemistry centers around the impacts of polluting chemicals on nature, green chemistry centers around mechanical ways to deal with preventing pollution and decreasing the utilization of nonrenewable assets.
Scientific session on Colloid and Surface Aspects
Colloid and surface science examine traverses an extensive variety of themes including organic collaborations at surfaces, sub-atomic gathering of specific surfaces, part of surface science in microelectronics and catalysis, tribology, and colloidal material science in the context of crystallization and suspensions; fluid interfaces; adsorption; surface parts of catalysis; scattering readiness, characterization, and stability; pressurized canned products, foams and emulsions; surfaces powers; micelles and microemulsions; light dissipating and spectroscopy; nanoparticles; new material science; detergency and wetting; thin films, fluid films, and bilayers; surfactant science; polymer colloids; rheology of colloidal and scatter frameworks; electrical phenomena in interfacial and disperse frameworks.
Scientific session on Homogeneous Catalysis and Molecular Catalysis
In chemistry, homogeneous catalysis will be catalysis in a solution by a solvent catalyst. Entirely, homogeneous catalysis alludes to catalytic reactions where the catalyst is in the same stage from the reactants. Homogeneous catalysis applies to reactions in the gas stage and even in solids. Control over the local chemical environment condition of a particle can be accomplished by encapsulation in supramolecular host systems. In supramolecular catalysis, this control is utilized to gain preferences over established homogeneous catalysis in bulk arrangement. Two of the fundamental points concern impacting reactions as far as substrate and product selectivity. Because of size and additionally shape recognition, substrate selective transformation can be figured it out.
Scientific session on Organometallics and Catalysis
Organometallic chemistry explores the chemistry of the often bewildering variety of compounds featuring metal-carbon bonds. A field that has underpinned the development of new synthetic methods and materials, it is also central to our understanding of catalysis. Organometallic compounds are widely used both stoichiometrically in research and industrial chemical reactions. The novel metal-free catalysts are called organocatalysts, for the synthesis of industrially relevant products with CO2 as a C1-building block. Combining those catalysts with metal-catalyzed or enzyme-catalyzed procedures in (sequential) one-pot reactions leads to innovative and sustainable catalytic systems with high selectivity and energy efficiency respectively. These alternative methods, taking steps in the upstream and downstream phases, are targeted at changing and extending the raw material base, utilizing CO2.
Scientific session on Polymer Engineering
Polymer engineering is generally an engineering field that designs, analyses, or modifies polymer materials. Polymer engineering covers aspects of the petrochemical industry, polymerization, structure, and characterization of polymers, properties of polymers, compounding, and processing of polymers and description of major polymers, structure-property relations, and applications.
Key Topics
Asymmetric catalysis |
Catalysis and Nanotechnology |
Photo reactors |
Autocatalysis |
Catalysis and Zeolites |
Polymer Engineering |
Biocatalysis |
Catalysis for Renewable sources |
Spectroscopy in Catalysis |
Biophasiccatalysis |
Catalytic Materials |
Nano catalysts |
Catalytic antibodies |
Chemical Engineering |
Auto Catalysis |
Enzyme catalysis |
Chemical Kinetics and Catalysis |
Tandem Catalysis |
Heterogeneous catalysis |
Chemical Synthesis and Catalysts Synthesis |
Advanced Synthesis |
Homogeneous catalysis |
Computational Catalysis |
Catalytic systems |
Organocatalysis |
Environmental and Green Chemistry |
New Catalysts |
Phase-transfer catalysis |
Industrial Catalysis |
Bio Polymers |
Photocatalysis |
Material Science |
Catalytic Performance |
Supported catalysts |
Organometallics and Catalysis |
Catalyst Selectivity |
Chemical precipitation of marine sediments |
Petrochemical Engineering |
Solid acid catalyst |
Bio Catalysis |
Photo electrochemistry |
Nanostructured materials |
Biotransformation |
Photocatalysis |
Nanomaterials |