Chemistry Conferences | Euro Chemistry Conference | Organic Chemistry Conferences

Theme: Visualizing the Future Effects of Chemistry and Novel Drug Delivery Systems for diseases like COVID-19

Euro Chemistry 2020

Tentative Program

Renowned Speakers

Dina MendonÃ§a
University of Beira Interior
Portugal

Stephen Hanessian
University of California
USA

John Muldoon
Toyota Research Institute of North America
USA

Wai-Yim Ching
University of Missouri-Kansas City
USA

Neelakandha S Mani
Janssen Pharma R&D
USA

Mark McLaughlin
Merck & Co.
USA

Yongda Zhang
Boehringer Ingelheim Pharmaceuticals, Inc.
USA

Mark Hixon
Mark S Hixon Consulting LLC
USA

Julissa Gonzalez Villegas
University of Puerto Rico
USA

Vassiliki-Alexandra Glezakou
Pacific Northwest National Laboratory
USA

Thomas F Jaramillo
Stanford University
USA

Zivko Nikolov
Texas A&M University
USA

Elod L Gyenge
University of British Columbia
Canada

Miguel Ãngel LÃ³pez Zavala
Tecnologico de Monterrey
Mexico

Lucia Alvarado
Guanajuato University
Mexico

Xavier J Salom-Roig
UniversitÃ© de Montpellier
France

Zaw Ye Maw Oo
D Mendeleev University of Chemical Technology of Russia
Russia

Miguel Yus
University of Alicante
Spain

Dharshi Bopegedera
The Evergreen State College
USA

Roman Korobko
ETH Zurich
Switzerland

Farhat Rezgui
University of Tunis El Manar
Tunisia

Natalja P. NÃ¸rskov
Aarhus Universit
Denmark

Teresa Pinho e Melo
University of Coimbra
Portugal

Richard Tuckett
University of Birmingham
UK

Ana R. Ribeiro
Universidade do Porto
Portugal

Chistopher J Rhodes
Fresh Lands Enivornmental Actions
UK

Giulia Tarantino
Cardiff University
UK

Gerd Kaupp
University of Oldenburg
Germany

Jia-Rong Chen
Central China Normal University
China

Agnieszka Pron
Merck Chemicals Ltd
UK

Natalja P. NÃ¸rskov
Max Planck Institute for Solid State Research
Germany

M E Henry Bergmann
Anhalt University of Applied Sciences
Germany

Jorg Kreuter
Goethe-University,Frankfurt
Germany

Sylvia Wagner
Fraunhofer Institute for Biomedical, Engineering
Germany

Jelena Popovic
Max Planck Institute for Solid State Research
Germany

Werner Paulus
University of Montpellier
France

Fatih Sirindil
University of Strasbourg
France

Dennis Fiorini
University of Camerino
Italy

Carmen NÃ¡jera
University of Alicante
Spain

VerÃ³nica Luque-Agudo
University of Extremadura
Spain

Werner Lottermoser
Salzburg University
Austria

Samir Messoudi
UniversitÃ© Paris-Sud
France

Sunwoo Lee
Chonnam National University
South Korea

VÃ¢nia AndrÃ©
Universidade de Lisboa
Portugal

Kurt V Mikkelsen
University of Copenhagen
Denmark

Tofik M Nagiev
Institute of Catalysis and Inorganic Chemistry
Azerbaijan

Neeraj Kumar Mishra
Sungkyunkwan University
South Korea

Hassan Said Bazzi
Texas A&M University
Qatar

Laurent DÃ©saubry
Tianjin University, of Science and Technology
China

Jin Ouyang
Beijing Normal University
China

Njomza Ajvazi
JoÅ¾ef Stefan Institute
Slovenia

V. Sabareesh
Vellore Institute of Technology (VIT) University
India

Ranju Bansal
Panjab University
India

Jun Fang
Sojo University
Japan

Naofumi Hashimoto
Setsunan University
Japan

Josef Jampilek
Comenius University
Slovakia

Tien-Yau Luh
National Taiwan University
Taiwan

Siti Salwa Abd Gani
Universiti Putra
Malaysia

Yusuf Ozkay
Anadolu University
Turkey

Jean-Christophe Carry,
Sanofi
France

Nawal Serradji
Paris Diderot University
France

Germain Vallverdu,
IPREM
France

Marius Closca
Al I Cuza University of Iasi
Romania

Marius Zaharia,
Al I Cuza University
Romania

Yerin Jeong,
Ewha Womans University
South Korea

Vakhtang Barbakadze,
Tbilisi State Medical University
Georgia

Slawomir Jarosz,
Polish Academy of Sciences
Poland

Marcelo Vollmann,
Marcelo Vollmann,
Belgium

Alexei V Finkelstein,
Institute of Protein Research
Russia

Hee-Je Kim
Pusan National University
South Korea

Tuanli Yao,
Shaanxi University of Science and Technology
China

Claire Mangeney
University Paris Descartes
France

Don Coltart
University of Houston
USA

Luc Jaeger
University of California
USA

Lars Baltzer,
Uppsala University
Sweden

Fatih Sirindil,
University of Strasbourg
France

Jae-Sang Ryu
Ewha Womans University
South Korea

Jasmina Casals Terre,Microtech Lab
Microtech Lab
Spain

M Paula Robalo,
Polytechnic Institute of Lisbon
Portugal

Maria Szyszkowska,
The Rzeszow University of Technology
Poland

Jung-Mi Hah,
Hanyang University
South Korea

David L Officer,
University of Wollongong
Australia

Hyunwook Jung,
Yonsei University
South Korea

Tilo Sohnel,
University of Auckland
Netherlands

Yanli Wang
National Center for Biotechnology Information
USA

Bo-Qing Xu,
Tsinghua University
China

Piotr Cysewski
Nicolaus Copernicus University in Torun
Poland

Colmont Marie,
Universite of Lille
France

Daniel T Gryko,
Polish Academy of Sciences
Poland

Cecilia Mortalo
Chemical Institute of Condensed Matter and Energy Technologies
Italy

Ubon Rerk-am,
Thailand Institute of Sciencetific and Technological Research
Thailand

Ken Cham-Fai Leung,
The Hong Kong Baptist University
Hong Kong

Hong Liu
Shanghai Institute of Materia Medica
China

Pavel Sorokin,
National University of Science and Technology MISiS
Russia

Ozge Yuksel Orhan,
Hacettepe University
Turkey

F Devrim Ã–zdemirhan
Abant Izzet Baysal University
Turkey

Euro Chemistry 2020

Euro Chemistry 2020 is a global standard conference which plays a great platform to discuss and learn about latest advancements and novel approaches in Organic Chemistry, Inorganic Chemistry, Analytical Chemistry, Materials Chemistry, and Green Chemistry: Green chemical principles, Physical Chemistry, Bio Chemistry, Theoretical Chemistry and Medicinal Chemistry. It aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results on all aspects of chemistry and related fields.

Young Scientist Benefits

Our conferences provide best Platform for your research through oral presentations.
Share the ideas with both eminent researchers and mentors.
Young Scientist Award reorganization certificate and memento to the winners
Young Scientists will get appropriate and timely information by this Forum.
Platform for collaboration among young researchers for better development
Award should motivate participants to strive to realize their full potential which could in turn be beneficial to the field as whole.

Deadline for Registrations:

Platform for collaboration among young researchers for better development
Till December 30, 2019 – $399
Till January 30, 2020 – $499
Till February 28, 2020 – $599

It also provides a premier interdisciplinary platform for researchers, practitioners and educators to present and discuss the most recent innovations, trends, and concerns as well as practical challenges encountered and solutions adopted in the fields of Chemistry. To discuss the issues and accomplishments in the field of Chemistry Conference Series Conferences has taken the initiation to gather the world class experts both from academic and industry in a common platform at its Chemistry conferences.

Meet Leading Euro Chemist, Material Science Scientists, organic/synthetic, Euro Chemist, Analytical Chemists, Chemistry Experts, Chemical Engineers, Green Chemistry Experts, and Environmental lists, at Euro Chemistry Conferences Europe, held during July 15,16 2020.

Euro Polymer Chemistry 2020 is an international event, attracting global participant’s intent on sharing, exchanging and exploring new avenues of Euro Chemistry, PhotoChemistry and latest Developments.

The aim of this event is to promote quality research and real-world impact in an atmosphere of true international association between scientists and engineers by bringing together again the world class researchers, International Communities and Industrial Heads to deliberate the latest developments and innovations in the fields of Euro Chemistry.

Track 01: Advanced Organic & Inorganic Chemistry

Organic chemistry is a chemistry subdiscipline involving the scientific study of the structure, properties, and reactions of organic compounds and organic materials, i.e., matter in its various forms that contain carbon atoms. Study of structure includes many physical and chemical methods to determine the chemical composition and the chemical constitution of organic compounds and materials. Study of properties includes both physical properties and chemical properties, and uses similar methods as well as methods to evaluate chemical reactivity, with the aim to understand the behavior of the organic matter in its pure form (when possible), but also in solutions, mixtures, and fabricated forms. The study of organic reactions includes probing their scope through use in preparation of target compounds (e.g., natural products, drugs, polymers, etc.) by chemical synthesis, as well as the focused study of the reactivities of individual organic molecules, both in the laboratory and via theoretical study. Inorganic chemistry deals with the synthesis and behavior of inorganic and organometallic compounds. This field covers all chemical compounds except the myriad organic compounds (carbon-based compounds, usually containing C-H bonds), which are the subjects of organic chemistry. The distinction between the two disciplines is far from absolute, as there is much overlap in the subdiscipline of organometallic chemistry. It has applications in every aspect of the chemical industry, including catalysis, materials science, pigments, surfactants, coatings, medications, fuels, and agriculture.

Related Societies:

Europe: Belgian Society of Biochemistry and Molecular Biology, Biochemical Society, Chemical Society, Danish Chemical Society, Society of German Chemists, Hungarian Chemical Society, Materials Science Conferences 2018 Asia, Italian Chemical Society, Norwegian Chemical Society, Polish Chemical Society, Royal Netherlands Chemical Society, Royal Society of Chemistry, Chemical Society of France, Society of Chemical Industry

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, Canadian Society of Clinical Chemists, Chemical Society of Peru, The Electrochemical Society

Asia-Pacific: Chemical Society of Japan, Chinese-American Chemical Society, Chinese Chemical Society, Chemical Research Society of India, Indian Chemical Society, The Korean Chemical Society, Korean Chemical Society

Track 02: Analytical Chemistry

Analytical techniques spans nearly all areas of chemistry but involves the development of tools and methods to measure physical properties of substances and apply those techniques to the identification of their presence (qualitative analysis) and quantify the amount present (quantitative analysis) of species in a wide variety of settings, analytical chromatography will be used in various fields for separation and analytical biochemistry is used to detect various samples. Chemistry Conferences focuses on electrochemical methods, quality assurance, qualitative analysis, quantifying nature, quantitative analysis, gravimetric methods, evaluating analytical data, spectroscopic methods and Standardizing analytical methods.

Related Societies:

Europe: Materials Science Conferences 2018 Asia, Italian Chemical Society, Norwegian Chemical Society, Polish Chemical Society, Royal Netherlands Chemical Society, Royal Society of Chemistry, Chemical Society of France, Society of Chemical Industry, Belgian Society of Biochemistry and Molecular Biology, Biochemical Society, Chemical Society, Danish Chemical Society, Society of German Chemists, Hungarian Chemical Society

USA: American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society, American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists

Asia-Pacific: Chemical Research Society of India, Indian Chemical Society, The Korean Chemical Society, Korean Chemical Society, Chemical Society of Japan, Chinese-American Chemical Society, Chinese Chemical Society

Track 03: Green and Sustainable Chemistry

Green chemistry, also called sustainable chemistry, is an area of chemistry and chemical engineering focused on the designing of products and processes that minimize the use and generation of hazardous substances. Environmental chemistry focuses on the effects of polluting chemicals on nature whereas green chemistry focuses on the environmental impact of chemistry, including technological approaches to preventing pollution and reducing consumption of non-renewable resources.

Related Societies:

Europe: Chemical Society of France, Society of Chemical Industry, Belgian Society of Biochemistry and Molecular Biology, Biochemical Society, Chemical Society, Danish Chemical Society, Society of German Chemists, Hungarian Chemical Society, Materials Science Conferences 2018 Asia, Italian Chemical Society, Norwegian Chemical Society, Polish Chemical Society, Royal Netherlands Chemical Society, Royal Society of Chemistry

USA: The Electrochemical Society, American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru

Asia-Pacific: Korean Chemical Society, Chemical Society of Japan, Chinese-American Chemical Society, Chinese Chemical Society, Chemical Research Society of India, Indian Chemical Society, The Korean Chemical Society

Track 04: Physical Chemistry

Physical Chemistry is the study of macroscopic, atomic, subatomic, and particulate phenomena in chemical systems in terms of the principles, practices, and concepts of physics such as motion, energy, force, time, thermodynamics, quantum chemistry, statistical mechanics, analytical dynamics and chemical equilibrium. , in contrast to chemical physics, is predominantly (but not always) a macroscopic or supra-molecular science, as most of the principles on which it was founded relate to the bulk rather than the molecular/atomic structure alone (for example, chemical equilibrium and colloids).

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 05: Theoretical Chemistry

Theoretical chemistry is the examination of the structural and dynamic properties of molecules and molecular materials using the tools of quantum chemistry, equilibrium and nonequilibrium statistical mechanics and dynamics. 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.

Related Societies:

Track 06: Polymer Chemistry

Polymer chemistry is a sub-discipline of chemistry that focuses on the chemical synthesis, structure, chemical and physical properties of polymers and macromolecules. The principles and methods used for polymer chemistry are common to chemistry sub-disciplines organic chemistry, analytical chemistry, and physical chemistry. Many materials have polymeric structures, from fully inorganic metals and ceramics to DNA and other biological molecules, however, polymer chemistry is typically referred to in the context of synthetic, organic compositions. Synthetic polymers are ubiquitous in commercial materials and products in everyday use, commonly referred to as plastics, rubbers, and composites. Polymer chemistry 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.

Related Societies:

Track 07: Pharmaceutical Chemistry

Pharmaceutical chemistry is the study of drugs, and it involves drug development. This includes drug discovery, delivery, absorption, metabolism, and more. There are elements of biomedical analysis, pharmacology, pharmacokinetics, and pharmacodynamics. Pharmaceutical chemistry work is usually done in a lab setting. Pharmaceutical chemistry involves cures and remedies for disease, analytical techniques, pharmacology, metabolism, quality assurance, and drug chemistry. Many pharmaceutical chemistry students will later work in a lab. Pharmaceutical chemistry leads to careers in drug development, biotechnology, pharmaceutical companies, research facilities, and more. Studying pharmaceutical chemistry allows students to contribute to life-saving remedies, enhance the speed of delivery of new medications, and help others. Pharmaceutical chemistry also includes other branches of study such as pharmacokinetics, pharmacodynamics, and drug metabolism. These are important for learning the effects that drugs have on the body.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 08: Materials Chemistry

Materials chemistry involves the use of chemistry for the design and synthesis of materials with interesting or potentially useful physical characteristics, such as magnetic, optical, structural or catalytic properties. The interdisciplinary field of materials science, also commonly termed materials science and engineering involves the discovery and design of new materials, with an emphasis on solids. The intellectual origins of materials science stem from the Enlightenment, when researchers began to use analytical thinking from chemistry, physics, and engineering to understand ancient, phenomenological observations in metallurgy and mineralogy. Materials science still incorporates elements of physics, chemistry, and engineering. As such, the field was long considered by academic institutions as a sub-field of these related fields. Beginning in the 1940s, materials science began to be more widely recognized as a specific and distinct field of science and engineering, and major technical universities around the world created dedicated schools of the study. Materials science is a syncretic discipline hybridizing metallurgy, ceramics, solid-state physics, and chemistry. It is the first example of a new academic discipline emerging by fusion rather than fission. Thus, breakthroughs in materials science are likely to affect the future of technology significantly.

Related Societies:

Track 09: Biochemistry

Biochemistry can be defined as the science concerned with the chemical basis of life. The cell is the structural unit of living organisms. Thus, biochemistry can also be described as the science concerned with the chemical constituents of living cells and with the reactions and processes, they undergo. By this definition, biochemistry encompasses large areas of cell biology, of molecular biology, and of molecular genetics. The major objective of biochemistry is the complete understanding, at the molecular level, of all of the chemical processes associated with living cells. To achieve this objective, biochemists have sought to isolate the numerous molecules found in the cells, determine their structures, and analyse how they function.

Related Societies:

Track 10: Chemical Engineering

Chemical engineering is a branch of engineering that applies physical sciences (physics and chemistry), life sciences (microbiology and biochemistry), together with applied mathematics and economics to produce, transform, transport, and properly use chemicals, materials and energy. A chemical engineer designs large-scale processes that convert chemicals, raw materials, living cells, microorganisms and energy into useful forms and products. It is a process engineering which mainly comprises of the concepts of unit operation, unit process and chemical technology.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 11: Chemistry in Clinical Research

Clinical chemistry (also known as chemical pathology, clinical biochemistry or medical biochemistry) is the area of chemistry that is generally concerned with analysis of bodily fluids for diagnostic and therapeutic purposes. It is an applied form of biochemistry (not to be confused with medicinal chemistry, which involves basic research for drug development). The discipline originated in the late 19th century with the use of simple chemical reaction tests for various components of blood and urine. In the many decades since, other techniques have been applied as science and technology have advanced, including the use and measurement of enzyme activities, spectrophotometry, electrophoresis, and immunoassay. There are now many blood tests and clinical urine tests with extensive diagnostic capabilities.

Track 12: Computational Chemistry

Combinatorial chemistry comprises chemical synthetic methods that make it possible to prepare a large number (tens to thousands or even millions) of compounds in a single process. These compound libraries can be made as mixtures, sets of individual compounds or chemical structures generated by computer software. Synthesis of molecules in a combinatorial fashion can quickly lead to large numbers of molecules. In its modern form, combinatorial chemistry has probably had its biggest impact in the pharmaceutical industry. Researchers attempting to optimize the activity profile of a compound create a 'library' of many different but related compounds. Advances in robotics have led to an industrial approach to combinatorial synthesis, enabling companies to routinely produce over 100,000 new and unique compounds per year.

Related Societies:

Track 13: Electrochemistry

Electrochemistry is the branch of physical chemistry that studies the relationship between electricity, as a measurable and quantitative phenomenon, and identifiable chemical change, with either electricity considered an outcome of a chemical change or vice versa. These reactions involve electric charges moving between electrodes and an electrolyte (or ionic species in a solution). Thus, electrochemistry deals with the interaction between electrical energy and chemical change.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 14:Natural Product Chemistry

Chemistry of natural product is a field of organic chemistry. A natural product is a chemical compound or substance produced by a living organism that is found in nature. The term natural product has been extended for commercial purposes to refer to cosmetics, dietary supplements and foods produced from natural sources without added artificial ingredients. Natural products such as phytomedicines sometimes have therapeutic benefit as traditional medicines for treating diseases, yielding knowledge to derive active components as lead (active) components for drug discovery.

Related Societies:

Track 15: 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 aims at enhancing knowledge within the field. Applied Chemistry is the scientific field of understanding basic chemical properties of materials and for producing new materials with well-controlled functions.

Related Societies:

Track 16: Advanced Medicinal Chemistry

Medicinal chemistry and pharmaceutical chemistry are disciplines at the intersection of chemistry, especially synthetic organic chemistry, and pharmacology and various other biological specialties, where they are involved with design, chemical synthesis and development for market of pharmaceutical agents, or bio-active molecules (drugs). Medicinal chemistry and pharmaceutical chemistry are disciplines at the intersection of chemistry, especially synthetic organic chemistry, and pharmacology and various other biological specialties, where they are involved with design, chemical synthesis and development for market of pharmaceutical agents, or bio-active molecules (drugs). ADME is an abbreviation in pharmacokinetics and pharmacology for "absorption, distribution, metabolism, and excretion", and describes the disposition of a pharmaceutical compound within an organism. The four criteria all influence the drug levels and kinetics of drug exposure to the tissues and hence influence the performance and pharmacological activity of the compound as a drug. Sometimes, liberation and/or toxicity are also considered, yielding LADME, ADMET, or LADMET.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 17: Agricultural Chemistry

Agricultural chemistry is the study of both chemistry and biochemistry which are important in agricultural production, the processing of raw products into foods and beverages, and in environmental monitoring and remediation. These studies emphasize the relationships between plants, animals and bacteria and their environment. The science of chemical compositions and changes involved in the production, protection, and use of crops and livestock. As a basic science, it embraces, in addition to test-tube chemistry, all the life processes through which humans obtain food and fibre for themselves and feed for their animals. As an applied science or technology, it is directed toward control of those processes to increase yields, improve quality, and reduce costs. One important branch of it, chemurgy, is concerned chiefly with utilization of agricultural products as chemical raw materials.

Related Societies:

Track 18: Industrial Chemistry

Industrial Chemistry is the branch of chemistry which applies physical and chemical processes towards the transformation of raw materials into products that are of benefit to humanity. Industrial inorganic chemistry includes subdivisions of the chemical industry that manufacture inorganic products on a large scale such as the heavy inorganics (chlor-alkalis, sulfuric acid, sulphates) and fertilizers (potassium, nitrogen, and phosphorus products) as well as segments of fine chemicals that are used to produce high purity inorganics on a much smaller scale. Among these are reagents and raw materials used in high-tech industries, pharmaceuticals or electronics, for example, as well as in the preparation of inorganic specialties such as catalysts, pigments, and propellants.

Related Societies:

Track 19: Supramolecular Chemistry

Supramolecular Chemistry is the branch of chemistry beyond that of molecules and focuses on the chemical system made up of a discrete number of assembled molecular subunits of components. The forces liable for the abstraction organization might vary from weak to strong interaction given that the degree of electronic coupling between the molecular elements remains tiny with relation to relevant energy parameters of the element. We all know that the traditional chemistry focuses on the covalent bond, however supramolecular chemistry studies the weaker and reversible noncovalent interactions between molecules. The study of non-covalent interactions is fundamental to understanding several biological processes from cell structure to vision that depend upon these forces for structure and function.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

Track 20: Nuclear Chemistry

Nuclear chemistry is the chemistry of radioactive such as the actinides, radium and radon together with the chemistry associated with equipment (such as nuclear reactors) which are designed to perform nuclear processes. This includes the of surfaces and the behavior under conditions of both normal and abnormal operation (such as during an accident). An important area is the behavior of objects and materials after being placed into a nuclear waste storage or disposal site. It includes the study of the resulting from the absorption of radiation within living animals, plants, and other materials.

Related Societies:

Track 21: Environmental Chemistry and Geochemistry

Environmental Chemistry can be defined as the study of the sources, reactions, transport, effects, and fates of chemical species in the air, soil, and water environments; and the effect of human activity and biological activity on these. Chemical measures of water quality include dissolved oxygen (DO), chemical oxygen demand (COD), biochemical oxygen demand (BOD), total dissolved solids (TDS), pH, nutrients nitrates and phosphorus, heavy metals (including copper, zinc, cadmium, lead and mercury), and pesticides. Geochemistry is a science that deals with the chemical composition of and chemical changes in the earth's crust.

Related Societies:

Track 22: Crystal engineering

Crystal engineering is the design of molecular solids with specific physical and chemical properties through an understanding and manipulation of intermolecular interactions. Engineering strategies typically rely on hydrogen bonding and coordination bonds, but can also use other interactions, such as halogen bonds and π–π interactions. Crystal Engineering is a fast-growing area of knowledge with implications in both academical and industrials environment. It can be defined as the rational design and synthesis of functional molecular solids. Crystal engineering has recently emerged as a method of choice for the design and construction of organic as well as metal-organic functional materials. This study was conducted in four categories: nanococrystals, nano metal-organic frameworks, composites of polyoxometalates and also some of the nanocarbons.

Related Societies:

USA: American Chemical Society, American Oil Chemists Society, American Society of Brewing Chemists, American Society for Mass Spectrometry, Canadian Society for Chemical Technology, , Chemical Society of Peru, The Electrochemical Society

The importance of matching international standards of quality across industries such as pharmaceutical as well as food and agriculture industries which includes rising adoption of the process technology is promoting the growth of spectroscopy market. The growth forecast is expected to grow at a CAGR of 8.4% during the period from 2017 to 2025. The world process spectroscopy market is anticipated to reach USD 2005.2 million in 2025.

Competitive analysis and Top Players in Spectroscop

Due to the presence of several global and regional vendors, the spectroscopy market appears to be fragmented. The competition among the companies is mainly focussed on factors such as production volume, quality, innovation in technology, and aftersales services. The major challenges to spectroscopy manufacturers are consumer preferences, rapid improvements in technology and, intense competition among them. Companies are concentrating on developing products with innovative technologies and are highly focussing on improving revenue.

Market Growth:

The chemicals market expected to reach a value of nearly $4216.55 billion by 2022, significantly growing at a CAGR of 5.4% during the forecast period. The growth in the chemicals market is due emerging markets growth, low oil prices and emergence of multinational chemicals companies.

The major industrially and functionally significant chemical product categories include inorganic and organic chemicals, ceramics, polymers, elastomers, surfactants, acids, oleochemicals, alcohols, dyes, bases, salts, alkalis, oils, colorants, esters, coatings, solvents, neutral gases, petrochemicals, process gases and source gases. Specialty chemicals are supplied from the oil and gas sector, while other chemicals are sourced from uncultivated biomass, agriculture, mining, industrial chemical synthesis reaction and even water.

World Consumption Sulfuric Acid (H2SO4)

Sulfuric acid is one of the largest-volume industrial chemicals produced in the world. The production of fertilizers, especially phosphate fertilizers from wet-process phosphoric acid, is the major end-use market for sulfuric acid, accounting for over 60% of total world consumption in 2017. Major growth drivers on a global level in decreasing order are use for phosphoric acid, titanium dioxide, hydrofluoric acid, ammonium sulfate, and for uranium processing and metallurgical applications.

The majority of sulfuric acid is generated by burning sulfur smelter acid is involuntarily produced and its economics are driven primarily by metal markets. Increased recovery of by-product sulfuric acid at smelters has had a significant impact on the industry, leading to increased trade in sulfuric acid (since by-product producers are not necessarily located near acid markets) and forcing some sulfur-burning plants to close.

Industrial uses will decline slightly through 2022. Future growth in sulfuric acid consumption will be driven by increases in population and the extent to which people in the developing world switch to increased nutrition-rich food crops that require significant quantities of fertilizers. It will also be influenced by the rate of increase in production of biofuels, especially corn-based fuels.

The following pie chart shows world consumption of sulfuric acid in 2017

Top Chemistry Universities Worldwide:

Europe Chemistry Universities:

USA Chemistry Universities:

Asia Chemistry Universities:

Africa Chemistry Universities:

Chemistry societies:

Chemistry Companies in Europe:

Chemistry companies in USA:

Chemistry Companies in Asia and Middle East:

Chemistry jobs in Europe:

Senior R&D Chemist Sentinel | Scientific Officer Water Chemistry Group Laboratories Northern Ireland Civil Service | Graduate Trainee Water Treatment and Hygiene Engineer Deep Water Blue Limited | Senior Recruitment Consultant- Hyper Recruitment Solutions | Structure-Based Drug Design Science Expert The CCDC | Head of Materials Science Research & Development | Protein Characterization Chemist | Technical Expert Biological Chromatography | GLP Study Director | Project Manager | R&D Chemist

Chemistry jobs in USA:

Zhejiang University of Technology Calls for Global Talents to join the 1000 talent Plan | Quality Control Analyst I Teva Pharmaceuticals | Malt and Barley Lab Scientist- MillerCoors | Associate Scientist Chemistry- AbbVie | Chemist Miniat | Analytical Chemist Resource Solutions LLC | CHEMIST State of Tennessee | Scientist I Bayer | Sr. Chemist Analytical NuSil Technology LLC | Chemist I Athlon Solutions | Assistant Professor Analytical Chemistry University of Northern Colorado | Scientist I Central Business Solutions Inc

Chemistry jobs in Asia:

Chemistry Journals:

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