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Track 1. Organic Chemical Engineering

Organic chemical engineering is a branch that applies physical sciences (physical science and organic natural science), life sciences (microbiology and organic chemistry), together with connected arithmetic and financial matters to deliver, change, transport, and appropriately utilize chemicals, materials and vitality.

Track 2. Inorganic Chemistry of Materials and Bio-Inorganic Catalysis

Metals is an important component for biological systems. As catalytic or structural cofactors, metal ions are critical to the function of up to an estimated one-third of all enzymes. Additionally, metals play diverse roles in biology. Not only do they operate in important biosynthetic pathways generating metabolic products, but also function as environmental toxins. Elucidating the important roles of metals in biological systems requires a multi-disciplinary approach at the interface of chemistry and biology. Bioinorganic Chemistry includes the study of both natural phenomena such as the behavior of metalloproteins as well as artificially introduced metals, including those that are non-essential, in medicine and toxicology. The discipline also includes the study of inorganic models or mimics that imitate the behavior of metalloproteins.

Track 3. Physical Organic Chemistry

It is the field of organic chemistry that focuses on the relationship between chemical structures and reactivity, applying experimental tools of physical chemistry to the study of organic molecules. Specific focal points of study include the rates of organic reactions, the relative chemical stabilities of the starting materials, reactive intermediates, transition states, and products of chemical reactions, and non-covalent aspects of solvation and molecular interactions that influence chemical reactivity.

Track 4. New Developments in Organic Chemistry

Organic chemistry is defined as the study of the structure, properties, and reactions of organic compounds and organic materials. The advanced research done by modern organic chemists impacts almost every aspect of human life, and the production of useful organic molecules remains one of the world's most profitable industries.

Track 5. Coordination Chemistry and Organometallic Chemistry

Coordination refers to the "coordinate covalent bonds" (dipolar bonds) between the ligands and the central atom. In coordination chemistry, a structure is first described by its coordination number, the number of ligands attached to the metal (more specifically, the number of donor atoms). Usually one can count the ligands attached, but sometimes even the counting can become ambiguous.

Organometallic chemistry is the study of chemical compounds that are widely used both stoichiometrically in research and industrial chemical reactions. Organometallic compounds are often used as homogeneous catalysts.  It is very important for the synthesis of complex molecules from simple starting materials.

Track 5. Organic Electronics and Regio Chemistry

Organic electronics is a field that provides the study of materials science related to the synthesis, characterization, designing, and application of small organic molecules or polymers that shows considerable electronic properties such as conductivity. It is made from organic (carbon-based) small molecules or polymers using synthetic strategies developed in the context of organic and polymer chemistry. Regio chemistry is defined as the preference of chemical bond making or breaking one direction to all other possible directions. It can often apply to which of many possible positions a reagent will affect, such as which proton a strong base will abstract from an organic molecule, or where on a substituted benzene ring a further substituent will add. Because of the ability of the formation of one product over another, the reaction is selective. This reaction is called Regio selective because it selectively generates one constitutional isomer rather than the other.

Track 6. Chemo Selectivity and Lab Experiments in Organic Chemistry

Chemoselectivity is defined as the selective reaction of one functional group in the presence of others, this process also includes convoluted and protecting groups that are on the molecular connectivity alone. The prediction of the outcomes is difficult where many reactions are plausible. Lab experiment is a method of investigation of the new chemical process and techniques. In an experiment, an independent variable (the cause) is manipulated and the dependent variable (the effect) is measured; any extraneous variables are controlled.

Track 7. Natural Products and Heterocyclic Chemistry

Heterocyclic chemistry is the branch of organic chemistry dealing with the synthesis, properties, and applications of these heterocycles. Although heterocyclic compounds may be inorganic, most contain at least one carbon. While atoms that are neither carbon nor hydrogen are normally referred to in organic chemistry as heteroatoms, this is usually in comparison to the all-carbon backbone. It is characterized by the method, that some or all the atoms in their molecules are joined in rings containing at least one atom of an element other than carbon. Among the various clinical applications, heterocyclic compounds have a considerable active role as anti-bacterial, anti-viral, anti-fungal, anti-inflammatory, and anti-tumor drugs.

Track 8. Medicinal and Bioorganic Chemistry

Bioorganic chemistry is a scientific discipline that combines both organic chemistry and biochemistry. However medicinal chemistry is the field which focuses on small organic molecules that encompasses synthetic organic chemistry and aspects of natural products and computational chemistry in close combination with enzymology, chemical and structural biology, together aiming at the development and discovery of new therapeutic agents. organic chemistry is used to explain how enzymes catalyze the reactions of metabolic pathways and why metabolites react the way they do. It is focusing to expand organic-chemical research on structures, synthesis, and kinetics in a biological direction.

Track 9. Organocatalysis and New Strategies

Organocatalysis refers to the rate of a chemical reaction increased by an organic catalyst referred to as an "organocatalyst" consisting of carbon, hydrogen, sulfur and other nonmetal elements found in organic compounds. The absence of sensitivity to oxygen and moisture, their ease availability, low cost, and low toxicity confers a huge direct benefit in the production of pharmaceutical intermediates when compared with (transition) metal catalysts is the advantages of the organocatalysts.

Track 10. Organic Reactions and Processes in Pharmaceutical Development

Organic reactions are defined as the chemical reactions involving organic compounds which is used in the construction of new organic molecules. The basic organic chemistry reaction types are addition reactions, elimination reactions, substitution reactions, pericyclic reactions, rearrangement reactions, photochemical reactions and redox reactions. The chemicals and drugs, plastics, food additives, fabrics, all depends on organic reactions. Organic reactions are also important in the production of pharmaceuticals.

Track 11. Organic Synthesis and Technologies

Organic Synthesis means constructing a target molecule ranging from complex, biologically active natural products to new materials. Organic molecules sometimes contain a higher level of complexity than purely inorganic compounds, so that the synthesis of organic compounds has developed into one of the most important branches of organic chemistry.

Track 12. Nanoparticles in Organic Chemistry

The relation between nanoparticles and organic chemistry are described based on the Nanomaterial catalysts that are usually heterogeneous catalysts broken up into metal nanoparticles to speed up the catalytic process.

Track 13. Industrial Inorganic Chemistry

It is a field of chemistry which involve the production of inorganic products on a large scale as well as chemicals that are used to produce high purity inorganics on a much smaller scale.

Track 14. Inorganic Biochemistry

It is defined as the analysis of chemical reactivity of metal ions in biological environments. Investigations of inorganic elements in processes e.g. nutrition, the toxicity of inorganic species, including the ways in which such toxicities are overcome both by natural systems and by human intervention, and of metal-ion transport and storage in biology.

Track 15. Environmental Organic Chemistry

It is the study of the influence of organic chemicals on the environment which includes the study of the structure of organic compounds, physical properties of organic compounds, chemical properties of organic compounds and the reactivity of organic compounds to understanding the behavior of organic compounds not only in the pure form but also in the aqueous and nonaqueous solutions as well as the chemistry of complex mixtures to reflect the manner in which such chemicals exist in the environment.

Track 16.  Biotransformations in Organic Chemistry

Biotransformation refers to the chemical alteration of chemicals such as nutrients, amino acids, toxins, and drugs in the body. It is also needed to provide nonpolar compounds so that they are not reabsorbed in renal tubules and are excreted. The drug or toxin metabolism in a body is an example of a biotransformation.  Because of the high stereo- or regioselectivity combined with high product purity and high enantiomeric excesses, biotransformation can be technically superior to traditional chemical synthesis.

Track 17. Computational Advances in Organic Chemistry

Computational Chemistry is the area of chemistry which involves the use of computer simulation to predict, understand, or explain chemical reactivity and solving chemical problems. It uses methods of theoretical chemistry, incorporated into efficient computer programs, to calculate the structures and properties of molecules and solids.

Track 18. Green Chemistry in Organic Synthesis

It is described as the field of chemistry which involves protection of environment from pollution. It comprises a new approach to the synthesis, processing and application of chemical substances, thus diminishing the hazards for human health and environmental pollution. It also governs on problems such as atom toxicity, economy, solvents, energy consumption, use of raw materials from renewable resources and decomposition of the chemical products to simple non-toxic substances that are compatible with the environment.

Track 19. Fluorous Chemistry

It is the field of chemistry which involves the use of perfluorinated compounds or perfluorinated substituents to facilitate recovery of a catalyst or reaction product. Perfluorinated groups impart unique physical properties including high solubility in perfluorinated solvents. This property can be useful in organic synthesis and separation methods such as solid phase extraction.Fluorous techniques are applicable to both green chemical process development and chemical discovery research. Fluorous chemistry improves productivity through efficient purification.

Track 20. Domino Reactions in Organic Synthesis

A domino reaction is a method of transformation that forms two or more bonds under identical conditions. The advantages of methods that construct complex molecules in a single reaction are self-evident, providing both atom and step economy.

Track 21. Organic Structures Determination and Spectroscopic Methods

The process and methodologies involved in the determination of organic structures. The method is used in physical and analytical chemistry because of the unique spectra of atoms and molecules. As a result, these spectra can be used to detect, identify and quantify information about the atoms and molecules. There are different types of spectroscopic techniques which can be used to identify organic molecules.

Track 22. Stereochemistry and Solid-State Organic Chemistry

It refers to the study of the atoms related with the spatial arrangement of atoms within the molecules. Stereochemistry spans the entire spectrum of organic, inorganic, biological, physical and especially supramolecular chemistry. It includes methods to govern and describe these relationships and effect on the physical or biological properties and the way these relationships influence the reactivity of the molecules.

Solid-state organic chemistry is the field of chemistry generally emphasizes the study of crystalline solids because the geometric arrangement of molecules in the reacting solid can be determined.

Track 23. Organic Geochemistry

is the subject characterized by a high transdisciplinary and located at the edge of chemistry, environmental sciences, geology and biology. Organic geochemistry encompasses research as diverse as biogeochemistry, aspects of climate change studies, petroleum geochemistry, aspects of archaeology, and studies of extraterrestrial organic matter.

Track 24. Organic Photochemistry

Photochemistry is the study of the chemical effects of light. It is defined as the chemical reaction caused by absorption of ultraviolet. This field of chemistry is of immense importance as it is the basis of photosynthesis, vision, and the formation of vitamin D with sunlight.

Track 25. Organic chemistry of Life and Organic Chemistry Today

Carbon is a one of unique element to form a wide variety of compounds that contain long chains and/or rings of carbon atoms. Organic molecules are the most complex chemical structures found in living organisms. Despite of their size and complexity, these biological molecules follows the same chemical principles as simpler organic molecules. Organic chemistry, where now? What will be the next scientiļ¬c revolutions. The future for this science.

Track 26. Global Chemical Industry Analysis

The global chemical industry is very large and competitive. It is expected to grow at a considerable rate in the future. The industry products account for a major share of the overall global chemicals industry. The global chemical industry consists of a very diverse and complicated range of products. In terms of revenue, it is one of the world’s largest markets. International Conference on Organic and Inorganic Chemistry 2018 welcomes all the leading industries and eminent leaders to join us and share their ideas for enhancing the market of chemical Industry and factors affecting the strength of competition in the global chemicals market


5th International Conference on Organic and Inorganic Chemistry: Conferences Series are glad to welcome all the participants, Eminent leaders of chemistry, Professors, researchers, delegates, Students, business experts and officials from everywhere throughout the globe at "5th International Conference on Organic and Inorganic Chemistry" schedule on June 12-13, 2018 at Paris, France, which include keynote sessions, oral talks, publication showcases, Exhibition and Workshops.

Organic-Chemistry 2018 is an worldwide platform to debate and learn about new compounds and its structures, bonding, Organic chemical engineering, organometallic chemistry, organic chemical science, biogeochemistry, Regio-chemistry, petroleum chemical science, bioorganic and medicinal chemistry, advancements in the fields of modern experimental chemistry, modern analytical chemistry, modern theoretical organic chemistry, Inorganic chemistry of materials and Bio-Inorganic Catalysis, Organic Photochemistry, Organic electronics, Coordination Chemistry and Organometallic chemistry, Chemo-selectivity, green chemistry, Organic chemistry of life, spectroscopy, Industrial Inorganic Chemistry, Natural products and heterocyclic chemistry, new synthetic ways and advances in catalysis.

5th International Conference on Organic and Inorganic Chemistry: With the theme “Strategic Approach and Future Generation Advancements in Organic and Inorganic Chemistry”, the conference series aims to supply a forum for international researchers from varied areas of chemistry, pharmacy, chemical biology, materials science and chemical engineering by providing a platform for appraisal of recent data, and to share latest cutting-edge analysis findings and results regarding all aspects of organic chemistry. The meetings are going to be a multidisciplinary gathering to present major areas like organometallic, Organic chemical engineering, Inorganic Chemistry, medicinal chemistry, chemical compound chemistry and overall applications.

Conferences Series organizes 1000+ Global events every year across the globe with support from 1000+ more scientific societies and Publishes 700 Open access journals which contains over 50000 eminent personalities, reputed scientists as editorial board members.


Organic Chemistry 2018 provides a great opportunity to network with peers from around the world focused on learning about Chemistry, organic and inorganic chemistry. This is a best opportunity to get exposure to a variety of points of view and expose you to new ways of conducting your business, sharpen your skills with new ideas and approaches, meet your business idols. World renowned speakers, the most recent techniques, tactics, and the newest updates in fields are hallmarks of this conference.


Eminent leaders

Organic Chemists

Chemistry Professors

Associate and Assistant Professors in Organic Chemistry

Post-Doctoral and Researchers in Chemistry

Head of Chemistry Departments

Post Graduates and Graduates in Organic Chemistry

Laboratory Chemists

Chemical Scientists working on Materials

Experts in the development of Organometallic chemistry

Chemistry Associations

Chemical Industries

Why Paris?

Paris, one of the beautiful cities in the world. It is the capital and most populous city of France and one of Europe's major centers of finance, commerce, fashion, science, and the arts. City of art which has numerous art galleries showcasing some of the best masterpieces from around the world, from pre-history to the Renaissance, contemporary and classic.

France played a central role in the chemistry revolution and now has a leading role in the modern chemicals industry. Manufacturing a wide range of chemicals, from basics and specialties to fine chemicals for pharmaceuticals, the industry is a major contributor to France’s economy. Chemistry has fascinated French scientists for centuries. Both a science and an industry, chemistry occupies a central place in France’s economic landscape. The chemicals industry (including fine chemicals for pharmaceuticals) is among the top three leading industrial sectors, with net sales (global turnover) of $110 billion in 2014 and direct employment of 156,600 people. The industry ranks second-largest in Europe and sixth in the world. France’s chemicals industry is composed of about 3,500 companies. Production of carbon fiber, a specialty chemical supplied to the aeronautical industry, is increasing rapidly in France. Global demand for carbon fiber is expected to grow by 10% per year and reach 100,000 m.t./yr in 2025.


Organic Chemistry 2018 is an international platform for presenting research about chemistry and related fields thus contributes to the dissemination of knowledge for the benefit of both the academia and business. This event brings together the top professionals in the field along with the highly affiliated professors to explore the advancements and latest applications achieved in the field of chemistry. International Conference on Organic & Inorganic Chemistry 2018 discusses various fields of chemistry employed in theoretical, physical, organic, pharmaceutical, and life science fields which mark the support for the advanced and much needed research by their study on various topics. The scientific program will focus on current advances in the research and use of chemistry and related with particular focus on its roles and applications in various fields.

The estimate for R&D development in the substance and propelled materials exchange reflects worldwide economy, key markets and the exchange serves. U.S. Research and development spending in chemicals and propelled materials is estimating to develop by 3.6% to prevail in $12 billion out of 2014. General universal R&D is figuring to develop at a higher 4.7% rate to $45 billion out of 2014.The R&D exercises inside the compound and propelled materials exchange reflects improvements inside the U.S. furthermore, worldwide economy and thusly the part this exchange plays in help of option request driven ventures. We estimate U.S. synthetic and propelled materials R&D to stretch out by 3.6% out of 2014 achieving $12.2 billion. Overall R&D is foreseen to stretch out by 4.7% to $45.3 billion.

Related Conference: Chemistry Conferences | International Chemistry Conferences | Chemistry Conferences Europe

24th International Conference on Organic and Inorganic Chemistry, July 18-19, 2018 Atlanta, USA; 4th European Organic Chemistry Conferences, March 01-03, 2018 London, UK; 6th International Conference and Exhibition on Materials Science and Chemistry, May 17-18, 2018 Rome, Italy; 10th World Medicinal Chemistry Conferences, June 18-19, 2018 Madrid, Spain;  2nd International Pharmaceutical Chemistry Conferences, October 02-04, 2017 2ndInternational Conference on Industrial Chemistry and Water Treatment, May 22-23, 2017 Las Vegas, USA; 6th International Conference and Exhibition on Advances in Chromatography & HPLC Techniques, August 02-03, 2018 Barcelona, Spain;  13th International Symposium on the Synthesis and Applications of Isotopes and Isotopically Labelled Compounds 04 - 07 June, 2018, Prague, Czech Republic; International Confernce on Polymers and Organic Chemistry 2018 (POC 2018) 04 - 07 June 2018, Montpellier, France; 22nd International Conference On Organic Synthesis (22-Icos), September 16-21, 2018,Florence, Italy; 27th IUPAC International Symposium on Photochemistry, July 08-13, Dublin, Ireland; 7th World Mass Spectrometry Conferences, June 20-22, 2018 Rome, Italy

Related Societies:

Europe: European Association for Chemical and Molecular Sciences (EuCheMS), International Union of Crystallography (IUCr),Swedish Chemical Society, Federation of European Biochemical Societies, Royal Society of Chemistry (RSC), Italian Chemical Society, Spanish Royal Society of Chemistry, Bulgarian Chemical Society, Chemical Society of Turkey, Croatian Chemical Society, Czech Chemical Society, Estonian Chemical Society,  Royal Netherlands Chemical Society (KNCV), Federation of European Biochemistry Socities (FEBS)

USA: American Chemical Society, Society of Chemical Manufacturers and Affiliates, Society of Cosmetic Chemists, American Institute of Chemical Engineers (AIChE), Chemical Society of Mexico, Canadian Society for Chemical Technology (CSCT), Society of Biological Inorganic Chemistry, American Society for Biochemistry and Molecular Biology

Asia-Pacific: Chemical Research Society of India, Australian Physiological and Pharmacological Society, , Chemical Society of Thailand, Chemical Society of the South Pacific, Chemical Society of Vietnam, Indonesia Chemical Society, Chemical Society of Japan, Australasian Society for Ecotoxicology (ASE).

To Collaborate Scientific Professionals around the World

Conference Date June 12-13, 2018

For Sponsors & Exhibitors

Speaker Opportunity

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Chemical Sciences Journal Natural Products Chemistry & Research Organic Chemistry: Current Research Journal of Medicinal and Organic chemistry

All accepted abstracts will be published in respective Conferenceseries International Journals.

Abstracts will be provided with Digital Object Identifier by