11^th International Conference on Chemistry  February 22-23, 2021 Padova, Italy

Track 1. Forensic Chemistry 

Forensic chemistry is a application of the chemistry, it can be defined as knowledge in the field of chemistry to solve crimes. Forensic chemistry encompasses toxicology, arson investigation, organic and inorganic analysis, and serology. A forensic chemist is a person  who spend their time to identify, quantify and examine unknown items at a crime scene. Specialists in this field have the diverse methods and the instruments for identifying the unknown substances. Each and every method of analysis uses specialized techniques and instrumentation. The procedure may be as easy to setting up a density gradient column to compare soil samples or complicated as using a mass spectrometer or neutron activation analysis to characterize an unknown substance. Forensic investigators consult o experts who analyze evidence collected at crime scenes and brought to the crime laboratory for examination.

• Methods of Forensic Science.
• Modernization

Track 2. Marine chemistry 

Marine chemistry  is the study of the chemical composition and chemical processes of the world’s oceans, which is influenced by the pH levels, turbidity currents, atmospheric constituents, sediments, metamorphic activity and ecology. Marine chemistry is subjective towards plate tectonics and seafloor spreading, turbidity currents, sediments, pH levels, atmospheric constituents, metamorphic activity, and ecology. A marine chemist is an environmental, occupational safety and health professional who is a trained professional answerable for ensuring repairs and construction of marine vessels can be made in safety whenever those repairs might effect in fire, explosion, or exposure toxic vapors or chemicals.

• Applications of marine Chemistry.
• Organic compounds in the oceans
• Marine Chemical Ecology
• Ocean Acidification
• Aquatic Ecosystems
• Chemical oceanography

Track  3. Industrial Chemistry 

Industrial Chemistry  deals regarding manufacturing art concerned with the transformation of available materials into more desirable ones. It is a branch of Chemistry which applies the physical and chemical processes of the conversion of Raw materials in to products that are beneficial for the mankind. Industrial chemistry is a manufacturing art of alteration of matter into the useful materials. Industrial Chemistry involving chemical, physical, electrical or mechanical steps to aid in the manufacturing of an item or items usually carried out on a very large scale. Industrial methods are the key components of heavy industry.

• Hess law
• Chemicals
• Petrochemicals

Track 4 . Biological chemistry 

Biochemistry  is to learn about the chemical processes within and relating to living organisms. It commonly referred as biological chemistry, Biochemistry is closely related to molecular biology and the study of the molecular process followed for genetic information encoded by the DNA is able to conclude in processes of life. It also covers the topics general biochemistry, path biochemistry, evolutionary biotechnology, immunology, molecular and cellular biology, structural biology, molecular medicine, cancer research, virology, plant molecular biology and biochemistry, and experimental methodologies.

• Biochemical energy
• Carbohydrates
• Biochemical cycles
• Drug activity
• Enzymes
• Nucleic acids & Proteins
• Photoreceptors
• Vitamins

Track 5. Geochemistry 

Geochemistry is Study about composition and distribution of chemical compounds and isotopes in geologic environments, and the chemistry of natural earth materials and the chemical processes operating within and upon the Earth and studies about interior of the earth ,the crust, mantle, Core, the behaviour of ions in the structure of crystals, hydrosphere. Geochemists consider Earth composed of isolated spheres rocks, fluids, gases and biology that exchange matter and energy over a range of time scales. Geochemistry Subdivided into Aqueous geochemistry, Biogeochemistry, Isotope geochemistry, Organic geochemistry, Photogeochemistry.

• Applied Geochemistry
• Mineralogy & Geochemistry
• Earth Sciences & Geography
• Geophysics & Geosystems

Track  6. Radiochemistry 

Radiochemistry is a study of chemical changes under the action of ionizing radiation, study of radiation-chemical processes, development of methods for predicting the radiation resistance of different materials, and development of methods for their protection against destruction. It is a subdivision of nuclear chemistry which is the study of the chemical effects of radiation on matter, and it is very different from radiochemistry as no radioactivity needs to be present in the material which is being chemically changed by the radiation. Radiation chemistry is also dependable for synthesis of organic compounds and production of modified materials for medicine, biotechnology, and membrane technology, development of new radiation-resistant materials, and radiation modification of polymers.

• Isotopes
• Interaction of radiation with matter
• Radio chromatography
• Nuclear reactions
• Environmental radioactivity
• Radio chemotherapy
• Detection and measurement of radioactivity

Track 7. Petro chemistry 

Petro chemistry also refers as petroleum distillates that focus on how the crude oil and natural gas are converted in to a raw  materials and other useful products. They are the chemical products obtained from petroleum by refining. Some chemical compounds made from petroleum are also available from other fossil fuels, such as coal or natural gas, or renewable sources such as maize, palm fruit or sugar cane. Petro chemistry may be possible to make petroleum from any kind of organic matter under suitable conditions. The concentration of organic matter is not high in the original deposits, but petroleum and natural gas evolved in places that favored retention, such as sealed-off porous sandstones. Petroleum, produced over millions of years by natural changes in organic materials, accumulates under the earth's surface in extremely huge quantities.

• synthetic rubbers
• Biofuels
• Petrochemical solvents
• Petroleum engineering
• Polystyrene
• Natural gas
• Refilling and derivatives

Track  8. Atmospheric Chemistry 

Atmospheric chemistry branch of atmospheric science focused on chemical processes within Earth's atmosphere. It specifically looks chemical composition of the natural atmosphere, the way gases, liquids, and solids in the atmosphere interact with each other and with the earth's surface and associated biota, and how human activities may be altering the chemical and physical characteristics of the atmosphere. It is a multidisciplinary approach of research and draws on environmental chemistry, physics, meteorology, computer modeling, oceanography, geology and volcanology and comprise atmospheric modelling, field measurements, remote sensing, and laboratory studies of gases, aerosols, clouds and precipitation, isotopes, radiation, dynamics, and biosphere and hydrosphere interactions.

• Global Warming
• Photochemical Smog
• Ozone Depletion
• Acidic Deposition

Track 9. Nanochemistry

 Nanochemistry is the Study of synthesis of building blocks which are dependent on size, surface, shape and defect properties. It is being used in chemical, materials and physical, science as well as engineering, biological and medical applications. Currently nanochemists work in biomedical chemistry, polymer chemistry, product synthesis, and a host of other areas. Nanochemistry having the same core concepts but the usage of those concepts are dissimilar. Proteins possess a competitive advantage over platforms for the development of nanodelivery systems since they are biocompatible, amphipathic, and widely available. Proteins also have distinctive molecular structures and various functional groups that can be selectively modified to alter encapsulation and release properties.

• Carbon nanobots
• Nanolithography
• Nanomedicine
• Organic Nanoparticles
• Nanotopography
• Chemical Nanoreactors
• Cryochemistry of Metal Atoms and Nanoparticles

Track 10. Sustainable Chemistry

Sustainable chemistry is the branch of chemistry that seeks to enhance ability of which natural resources are used to meet human needs for chemical products and services. Sustainable chemistry discuss about the topics of manufacture, design, and use of efficient, effective, safe and more environmentally benign chemical products and processes. It is also a process that stimulates innovation across all sectors to design and discover new chemicals, production processes, and product stewardship practices that will provide increased performance and increased value while meeting the goals and enhancing human health and the environment.

• Bioresources
• Pharmaceutical technology
• Photochemistry
• Product and material design
• Industry and sustainable chemistry
• New molecules, materials & products
• Catalysis

Track 11. Chemistry of Fungi 

Chemistry of Fungi includes the study of the chemistry of fungal metabolites. The topic which illustrate within the context of fungal metabolites, the historical development from the chemical to spectroscopic methods of structure clarification, and  the development in the  biosynthetic studies from establishing sequences and mechanisms to chemical enzymology and genetics and the enhancing the  understanding of biological roles of natural products.

• Fungal Diversity
• The Chemistry of Growing Fungi
• Fungal Ecology
• Chemical technology
• Bioresources
• Product and material design
• New molecules, materials & products
• Fungi & Development of Microbiological Chemistry

Track 12. Mass Spectroscopy and Filtration Chemistry 

Mass Spectroscopy is the analytical technique, that  exchange the  ideas among the experts in the area as Mass Spectroscopy which ionizes the  chemical species and sorts the ions based on the mass-to-charge ratio. In Simple terms Mass spectrometry is used in several different fields and ways  where mass spectrum measures, masses with in a sample and it is applied to pure samples as well as complex mixtures. Filtration Chemistry is a branch of Chemistry, that deals with the Filtration Techniques and which are used in different fields to Separate/extract the ingredients which is very useful and to separate the unknown ingredients using various instruments like HPLC, UV, GC. & IR. etc.

Track 13. Advanced chemistry

Advanced Chemistry is a higher level course in which we learn about the most significant aspects of chemistry. It will cover the topics mainly measurements and data, the Periodic Table, electron configuration, chemical bonding, mole conversions, writing formulas, state of matter, naming compounds, balancing equations, colligative properties, acids and bases, stoichiometry, gas laws, solutions pH, and titrations. It also discuss about original research, contemporary developments in applied chemistry principles, application agriculture, application in industry, macromolecular chemistry, research of pure and applied chemistry, photo electrochemistry and many more of this category.

Track 14. Environmental Chemistry

Environmental Chemistry is the Study of the chemical and biochemical phenomena that occur in nature, it is also study of the sources, reactions, transport, effects, and fate of chemical species in the air, water, and land, and the effect of human activities upon the various environmental segments, such as atmosphere, hydrosphere, lithosphere, and biosphere, also contains aspects of analytical chemistry, physical chemistry, organic chemistry & inorganic chemistry as well as more diverse areas, such as epidemiology, public health, biochemistry, biology, & toxicology. Environmental Chemistry are responsible for finding how the unpolluted environment functions and to find ways of sustainable development which do not harm the environment.

• Biogeochemical cycle and Hydrology
• Human population growth and Environment
• Environmental Education
• Environmental Chemistry and Engineering
• Environmental Biotechnology
• Pollution Control Chemistry and Green Chemistry

Track 15 .Food Chemistry

It is the study of chemical process and interactions of all biological and non-biological components of foods. Food Chemistry is apprehensive with analytical, biochemical, chemical, physical, nutritional, and toxicological aspects of foods and food ingredients. Food Science and Technology involves the application of basic sciences and engineering to study the physical, chemical, and biochemical nature of foods and the principles of food processing. Whereas Food Technology deals with the production processing that makes the food.  Food technologists apply their knowledge of food science to operate, design and manage the facilities and equipment involved in the processing and storage of foods.

Track 16. Polymer Chemistry

Polymer Chemistry is the branch of chemistry that deals with large molecules made up of repeating units of monomers. Polymer chemistry is a subdivision of chemistry that focuses on the chemical synthesis, structure, and chemical and physical properties of polymers and macromolecules. The principles and methods used within polymer chemistry are also applicable through a broad range of other chemistry sub disciplines like organic chemistry, analytical chemistry, and physical chemistry. It can also be included in the broader fields of polymer science or even nanotechnology, both of which can be described as encompassing polymer physics and polymer engineering.

• Biodegradable Plastics
• Biopolymers
• Monomers
• Poly-3-hydroxybutyrate (PHB)

Track 17 .Thermo chemistry

Thermo chemistry is the study of the heat energy related with chemical reactions and/or physical transformations. It is the study of the heat released or absorbed as a result of chemical reactions.  It is a branch of thermodynamics and is utilized by a wide range of scientists and engineers. The Processes which evolve heat are known as exothermic while those which absorb heat are known as endothermic .Heat changes during reactions are determined indirectly by measuring the work done or a temperature change. The energy produced or absorbed by the reaction(s) is expressed  in units of joules (= 1 kg/m2s2) or calories (defined as 4.184 J).

 

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This research analyze the world Chemistry markets in terms of the challenges faced by market participants, drivers and restraints in the industry, the revenue forecasts and growth rates and strategic recommendations, the competitive structure in the major markets. Due to COVID-19 crisis and the disturbance economic recession, the Flow Chemistry market worldwide will grow by a projected US$1 Billion, during the analysis period, driven by a revised compounded annual growth rate (CAGR) of 8.1% Market Size of the United States is predict to readjust to a 6.5% CAGR. Within Europe, the region badly hit by the pandemic situation, Germany will add over US$30.9 Million to the region's size over the next 7 to 8 years.

 In addition, over US$29.4 Million value of anticipated demand in the region will come from Rest of European markets. In Japan, the CSTR segment will reach a market size of US$52.9 Million by the close of the analysis period. Apart from backdrops, challenges and the changing geopolitical, business and consumer sentiments, the world's second largest economy will grow at 13.1% over the next couple of years and add approximately US$260.7 Million in terms of addressable market opportunity. Constant monitoring for emerging signs of a possible novel world order Post-COVID-19 crisis is a must for aspiring businesses and their intelligent leaders seeking to find achievement in the now changing Flow Chemistry market landscape. All research results presented are based on validated results from influencers in the market, whose opinions succeed all other research methodologies.

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Why to attend?

With members from around the world focused on learning about Chemistry, organic and inorganic chemistry; this is your single best opportunity to reach the largest assemblage of participants. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 3-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in fields are hallmarks of this conference.

Target Audience:

Directors, Presidents, CEO’s from companies, Chemical Instrument Vendors Professors and Students from Academia in the study of Analytical and Bio analytical Sciences. Attendee’s from various Pharma & Instrumental companies from all over the world.

Major Associations in Europe:

• Czech Chemical Society
• Italian Chemical Society
• European Society for Separation Science
• The Chromatographic Society 
• Swedish Mass Spectrometry Society
• British Mass Spectroscopic Society
• The Israeli Society for Mass Spectrometry – ISMS
• American Association for Clinical Chemistry
• American Chemical Society
• American Institute of Chemists (AIC)
• American Society of Brewing Chemists
• American Society for Mass Spectrometry
• Royal Society of Chemistry (RSC)
• Swedish Chemical Society
• New Swiss Chemical Society
• Spanish Society of Analytical Chemistry
• Spanish Society of Chromatography and Related Techniques
• Spanish Society of Mass Spectrometry
• Spanish Royal Society of Chemistry
• IUPAC, Analytical Chemistry Division-Spain

 

 

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