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About Conference

Chemistry Research 2021 will be organizing Conference by offering a virtual platform to all academicians, researchers, industry professional, and scholars. Conference will be scheduled on a wide range of topics and it will be helpful for the scientific fraternity to be connected while staying at their preferred place. Join the Conference organized by us and let the world know about your research and innovation.

EuroSciCon honoured to welcome all the participants for the upcoming CPD accredited International Conference on World Congress on Chemistry Research 2021 to be held from April 19-20, 2021 at Barcelona, Spain. The main focus of this World Congress on Chemistry Research 2021 conference is to fill up the knowledge gap by sharing the advanced research in Chemistry which is also integrated with advanced research. To attain in this goal this international conference is designed in such a way to display their ideas, theories, and analyses, innovations through Keynote presentations Plenary Presentations, Oral Talks, Poster presentations, Young Research Forum, Symposiums, Workshops, and Exhibitions.

Sessions

Track1:
Advanced Medicinal Chemistry:

Medicinal/Pharmaceutical chemistry deals with the discovery, design, development and both pharmacological and analytical characterisation of drug substances. Medicinal chemists are indispensable in the preclinical stages of drug development, and again as pharmaceutical chemists in drug quality control. Medicinal chemistry draws from organic chemistry, biochemistry, pharmacology, and medicine.

Track2:
Advanced Organic & Inorganic Chemistry:

Organic reactions square chemical reactions involving organic compounds. The fundamental chemical reaction classifies square-measure addition reactions, elimination reactions, substitution reactions, pericyclic reactions, preparation reactions, chemical reactions and reaction reactions.

The word organic refers to the compounds which contain the carbon atoms in it. So the branch of chemistry that deals with the study of compounds, which does not consist of carbon-hydrogen atoms in it, is called ‘Inorganic Chemistry.’ The substances which do not have carbon-hydrogen bonding are the metals, salts, chemical substances, etc.

Track3:
Agricultural Chemistry:

The science of chemistry and biochemistry in their relation to agriculture, especially agricultural production, the utilization of agricultural products, and (in later use) environmental matters.

Analytical Chemistry:

A branch of chemistry that deals with the identification of compounds and mixtures ( qualitative analysis) or the determination of the proportions of the constituents ( quantitative analysis)

Track5:
Applied Chemistry:

Applied chemistry is the application of the principles and theories of chemistry to answer a specific question or solve a real-world problem, as opposed to pure chemistry, which is aimed at enhancing knowledge within the field. Chemistry, like other fields of science, follows the scientific method, though perhaps not as strictly. The scientific method is composed of techniques and guidelines for conducting research that help scientists ensure their results are accurate. Let's explore how steps of the scientific method can be used, even loosely, by applied chemists in the laboratory.

Track6:
Biochemistry:

The study of the chemical substances and processes that occur in plants, animals, and microorganisms and of the changes they undergo during development and life. It deals with the chemistry of life, and as such it draws on the techniques of analytical, organic, and physical chemistry, as well as those of physiologists concerned with the molecular basis of vital processes. All chemical changes within the organism—either the degradation of substances, generally to gain necessary energy, or the build-up of complex molecules necessary for life processes—are collectively termed metabolism.

Track7:
Chemical Engineering:

Chemical engineering is the branch of engineering that deals with chemical production and the manufacture of products through chemical processes. This includes designing equipment, systems and processes for refining raw materials and for mixing, compounding and processing chemicals to make valuable products.

Track8:
Chemistry of Fungi:

Fungi is somewhere in between the micro and macro organisms which is a good source of producing biologically active secondary metabolites. Fungi have been used as tool for producing different types of secondary metabolites by providing different nutrients at different laboratory conditions. The fungi have been engineered for the desired secondary metabolites by using different laboratory techniques, for example, homologous and heterologous expressions.

Track9:
Chemistry in Clinical Research:

Clinical laboratory science consists of various specialties such as clinical chemistry, haematology, immunology, microbiology, serology, toxicology and urinalysis. This learning guide focuses on the major specialty of clinical chemistry, which encompasses a wide variety of tests and is a major area of concentration in hospital and reference core laboratories. Clinical chemistry uses many different methodologies, manual and fully automated tests, examines both very common and esoteric analytes, mixes basic chemistry with biochemistry, engineering, informatics and other disciplines, and overlaps with other areas of concentration, in particular, toxicology and endocrinology.

Track10:
Crystal Engineering:

Crystal engineering is the understanding of intermolecular interactions in the context of crystal packing and the utilization of such understanding in the design of new solids with desired physical and chemical properties. It is a subject of great scope and application that has developed by a coming together of thought streams from many other subjects.

Track11:
Environmental Chemistry:
Environmental Chemistry is thus the study of the behaviour of pollutants with respect to their environmental fate and effects on the environment. Environmental Chemistry is the discipline which deals with:

the environmental impact of pollutants,
the reduction of contamination and
Management of the environment.

Track12:
Green & Sustainable Chemistry:

The Green and Sustainable Chemistry section highlights quality research that attempts to reduce or eliminate the environmental impact of the chemical enterprise by developing sustainable technologies that are inherently non-toxic to living organisms and the environment.

Track13:
Industrial Chemistry:

Chemistry in its industrial applications especially to processes in manufacturing and the arts and to commercial production of chemicals. Industrial Chemistry is part of applied chemistry that deals with the development, optimization and monitoring of fundamental chemical processes used in industry to produce chemicals and chemical products.

Track14:
Marine Chemistry:

Marine chemistry is the study of the chemical composition and chemical processes of the world’s oceans. Some of the key processes studied are the cycling of: inorganic and organic carbon; nutrients, such as nitrogen and phosphorus; and trace elements, such as iron.

Track15:
Mass Spectroscopy & Filtration Chemistry:

Mass spectrometry is a powerful analytical technique used to quantify known materials, to identify unknown compounds within a sample, and to elucidate the structure and chemical properties of different molecules. The complete process involves the conversion of the sample into gaseous ions, with or without fragmentation, which are then characterized by their mass to charge ratios (m/z) and relative abundances.

Filtration, the process in which solid particles in a liquid or gaseous fluid are removed by the use of a filter medium that permits the fluid to pass through but retains the solid particles. Either the clarified fluid or the solid particles removed from the fluid may be the desired product. In some processes used in the production of chemicals, both the fluid filtrate and the solid filter cake are recovered. Other media, such as electricity, light, and sound, also can be filtered.

Track16:
Material Chemistry:

Material science is the study of all the materials we see in the world around us. From the clothes we wear and the dinner plates we eat off to the new technologies used in sports, medicines and computing. In this course we look at how materials work and develop an understanding of how and why the use of materials has developed throughout history including the manipulation of desirable properties to suit particular uses. The thread of ideas links the structure and bonding of different types of materials including metals, composites, polymers and smart materials to their properties.

Track17:
Nuclear Chemistry:

The branch of science which deals with the chemistry of radioactive materials, especially with the transformation of chemical elements by (natural or artificial) nuclear processes. Nuclear chemistry is the study of the chemical and physical properties of elements as influenced by changes in the structure of the atomic nucleus. Modern nuclear chemistry, sometimes referred to as radiochemistry, has become very interdisciplinary in its applications, ranging from the study of the formation of the elements in the universe to the design of radioactive drugs for diagnostic medicine.

Track18:
Petro Chemistry:

Petroleum Chemistry is made of a mixture of different hydrocarbons. The most prolific hydrocarbons found in the chemistry of petroleum are alkanes, these are also sometimes knows as branched or linear hydrocarbons. A significant percentage of the remaining chemical compound is the made up of aromatic hydrocarbons and cycloalkanes. Additionally petroleum chemistry contains several more complex hydrocarbons such as asphaltenes.

Track19:
Physical Chemistry:

The branch of chemistry that is concerned with the physical structure of chemical compounds, the amount of energy they have, the way they react with other compounds, and the bonds that hold their atoms together.

Track20:
Polymer Chemistry:

Polymer chemists study large, complex molecules (polymers) that are built up from many smaller (sometimes repeating) units. They study how the smaller building blocks (monomers) combine, and create useful materials with specific characteristics by manipulating the molecular structure of the monomers/polymers used, the composition of the monomer/polymer combinations, and applying chemical and processing techniques that can, to a large extent, affect the properties of the final product.

Track21:
Radio Chemistry:

“Radiation chemistry” deals with study of chemical transformations under the action of ionizing radiation, study of radiation-chemical processes, development of methods for predicting the radiation resistance of various materials, and development of methods for their protection against destruction.

Track22:
Supra Molecular:

Supramolecular chemistry refers to an area of chemistry that specializes in the study of noncovalent interactions within and between molecules. Traditionally, chemists have focused on studying how atoms and ions are held together by covalent bonds and ionic bonds, and how these bonds are formed and broken during chemical reactions. By contrast, researchers in supramolecular chemistry examine the weaker and reversible noncovalent interactions, such as hydrogen bonding, metal coordination, hydrophobic forces, van der Waals forces, pi-pi interactions, and electrostatic effects.

Track23:
Theoretical Chemistry:

Theoretical chemistry seeks to provide theories and explanations for chemical observations whilst also posing questions to be answered by future experiments. Playing a key role in physical chemistry, it uses the laws of physics to predict molecular structure, dynamics, bonding, reactivity, physical properties and spectroscopic response.

Market Analysis

Global chemical market research report 2000-2030 is a cyclical business closely to gdp as many chemical products are used up in early stages of the manufacturing supply chain. Upstream chemicals like petrochemicals usually depend upon the dynamics of their respective main end market (e.g. manufacturing) while downstream chemicals like cosmetics are driven by on big trends in consumer spending. Driven by global economic growth and pass-through of rising naphtha prices onto downstream chemical product prices, global chemical sales went up by 9% y/y in 2017, to reach usd3.8tn. We expect continued sales growth around 6%-8% (cagr 2018-19). European chemical players closed the margin gap to us peers due to a focus on specialties enjoying higher margins; yet the sustained economic growth across asia (particularly china) and in the u.s. is the prime volume and price driver. Basic chemicals: it has a close relationship with the cycle of industrial production as its products are used further down the supply chain. Soaps, detergents, cosmetics: all attached to chemical products, they are affected by trends in consumer spending agrochemicals: it is closely tied to global food prices and to farming revenues. High cagr of 14% for the global chemical logistics market 2018-2022. cagr of close to 14% during the forecast period. The increased demand for the customized green warehouse will drive the demand for the global chemical logistics market during the forecast period. Logistics companies such as deutsche post world net have rolled out green initiatives in transportation, warehousing, and distribution operations in a bid to reduce their carbon footprint by 30% by 2020. This report is available at a usd 1,000 discount for a limited time only: view market snapshot before purchasing. Save more with technavio. Buy 2 reports and get the third for free: view all technavio’s current offers. In this report, technavio analysts highlight the growth of the chemical industry as a key factor contributing to the growth of the global chemical logistics market: growth of the chemical industry. The demand for chemical logistics is driven by the growth of the global chemical industry. In 2016, the global chemical industry generated sales exceeding usd 3.7 trillion. The growth rate of the chemical industry is also driven by the fall in crude oil prices as most chemicals are obtained from the refining of crude oil. u.s. chemical industry riding wave of growth chemical production volumes continued to improve in 2017, with significant gains expected in 2018 and 2019. Increased output and accelerating growth rates that surpass the previous 20-yr average will help cement the business of american chemistry as a $1 trillion industry within the next five years, according to a recent report from the american chemistry council (acc). Chemical production volumes continued to improve in 2017, with significant gains expected in 2018 and 2019. “American chemistry is riding a synchronized global upswing,” said kevin swift, chief economist of acc and lead author of the report. “Manufacturing has turned a corner, business investment is on the rise, and domestic oil and gas production is on the rebound. it all sets the stage for tremendous momentum, expansion, and capital investment.” u.s. chemical manufacturers reportedly remain advantaged with access to cheaper and more abundant feedstocks and energy, helping push the number of announced chemical production projects to nearly 320 with a cumulative vale of over $185 billion. Nearly 60% of the chemical industry investment announced since 2010 has been completed or is under construction. As these investments have come online, chemical production volumes have continued to increase. Excluding pharmaceuticals, production volume for 2017 is expected to be up 8%, increasing to 3.7% in 2018, and 3.9% in 2019 before easing to 3% in 2020. Stronger export markets and gains in investment spending continue to boost demand in key end-use markets including light vehicles and housing, according to the report. Though production has eased from last year’s robust pace and light vehicle sales are expected to retreat slightly, the outlook is for sales to progress at a solid, though slower, pace over the next several years. Housing activity improved to 1.20 million starts in 2017 and is predicted to rise to 1.29 million in 2018 as the level of activity gradually returns to its long-term underlying demand pace of 1.5 million units per year by 2022. The report also noted that in addition to end-use markets, improved export markets will also drive strong gains in u.s. chemistry. Basic chemicals production is expected to be flat in 2017, before growing by 4.7% in 2018, and 5.2% in 2019 as new capacity comes online. Major export markets such as latin american and asia are expected to play a large role in expanding production.

Market research report on chemicals in USA:

A recent study by transparency market research (tmr) forecasts that the global fermentation chemicals market will grow at a moderate cagr of 5.4% from 2013 to 2019. Tmr, a leading market intelligence firm based in the United States, in its latest market report says that the revenue generated by the global fermentation chemicals market was valued at us$41,567.7 million in 2012, and will surge to us$60,123.9 million by the end of 2019. the report is titled ‘fermentation chemicals market - global industry analysis, size, share, growth, trends and forecast, 2013 – 2019.’ fermentation chemicals are widely utilized in a broad range of industry applications and chemical processes such as pharmaceutical industry, alcohol industry, chemical industry, rubber industry, food and beverages industry, and textile industry among many others. Owing to their low cost, better outputs, and natural structure, fermentation chemicals find applications in several industries across the globe. According to the primary and secondary research conducted by the market analysts at tmr, the global fermentation chemicals market will show a promising pace of growth for the period ranging from 2013 to 2019. The global demand and drive for the eco-friendly nature of fermentation chemicals, increasing number of industrial applications, and rising environmental concerns are some of the major factors expected to instill number of market opportunities in the fermentation chemicals market. Only agrochemicals may continue to face headwinds, from weak crop prices which have led to revenue decline in farming as the most important end market.

Market research report on chemicals in Europe:

Chemicals storage industry outlook in Europe to 2019 - capacity and capital expenditure forecasts with details of all operating and planned terminals. Chemicals storage industry outlook in Europe to 2019 - capacity and capital expenditure forecasts with details of all operating and planned terminals" is a comprehensive report providing information on storage terminals that store crude oil, petroleum products or, chemicals in Europe. Typical information on terminals includes terminal name, operator name, storage capacity and commodity stored for all active and planned terminals. The report also provides capital expenditure outlook at regional level by year and by key countries for oil and chemical storage terminals till 2019. The report also provides key country comparisons within the region based on contribution to regional oil and chemicals storage capacity. Planned (new build) terminals capacity addition and existing capacity expansions, as announced by the companies have also been included. Further the report also offers recent developments as well as latest tenders and contracts at regional level. Chemicals storage terminals provide historical data from 2009 to 2014, forecast to 2019. Capacity information of all oil and chemicals storage terminals. Provides operator information for all active and planned oil and chemicals storage terminals. Latest developments and contracts related to oil and chemicals storage terminals. Leather chemicals are a class of chemicals used in the treatment of animal hides for the production of leather. There is a range of leather chemical products available in the market, and they are deployed in every step in leather production from beam house to finishing. Types of leather products include shoes, garments, furniture and automotive upholstery, and other automotive applications such as auto interiors. technavio's analysts forecast the leather chemicals market in Europe to grow at a cagr of 2.62 percent over the period 2014-2019. Further, the report states that imposition of stringent regulations restricts the growth of the leather chemicals market in Europe. Vendors of leather chemicals have to follow elaborate procedures to gain approval for a new product. These regulations have led to increased compliance costs for vendors. The leather chemicals market is projected to reach $7,963 million by 2019, growing with a cagr of 7.64% between 2014 and 2019. The leather production process involves several chemical reactions. The basic process is beam house process, which mainly includes beam house chemicals such as cleansing chemicals and degreasing agents. This is followed by leather tanning, which consumes tanning & dyeing chemicals such as synthetic tanning agents (syntans), fatliquors and dyes. The syntans (synthetic tanning agents) are considered as a substitute for vegetable tanning agents. Tanning operation ensures retaining the physical properties of leather and also helps in maintaining its softness and weather resistance. The final stage of leather processing is leather finishing, which requires typical finishing chemicals to convert crust of leather into the final leather. The major purpose of using finishing chemicals is to bring certain properties to the leather such as water resistance, heat resistance. The report covers the global leather chemicals market in major regions namely Europe and the row for three major types, tanning & dyeing chemicals, beam house chemicals and finishing chemicals. This report analyses different marketing trends and identifies the most effective growth strategies in the market. It identifies market dynamics such as drivers, restraints, opportunities, and challenges. major companies such as basf se (germany), tfl ledertechnik gmbh & co.kg (germany), stahl international bv (the netherlands), lanxess ag (germany), bayer ag (germany) and clariant international ltd. (switzerland) have also been profiled.