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      2nd International Conference on Organic and Inorganic Chemistr in Zurich

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      October 24, 2019

      Thursday   8:00 AM - 5:00 PM (daily for 2 times)

      Zurich, Zürich

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      2nd International Conference on Organic and Inorganic Chemistr

      2nd International Conference on Organic and Inorganic Chemistry
      About this Event
      About Conference

      We take monstrous delight and respect to respect every one of the members over the world to go to the regarded 2nd International Conference on Organic Chemistry and Inorganic Chemistry slated on October 24-25, 2019 in Zurich, Switzerland.

      The Conference is planned to be a two-day intuitive occasion where members will be revealed to learn, examine and share their insight through different exercises, for example, publication introductions, discourses, talk sessions, and workshops.

      The objective of the conference:

      Science gatherings give a phase to specialists to share their disclosures and contemplations in various areas of Chemistry. In the meantime, they also give a stage to analysts and associations to locate the latest progressions in the field before generation.

      As time passes, the number of people enrolling for heading off to a gathering is growing, just like the number of speakers. A calendar of Organic Chemistry Conferences going to be held in multi-year, and the broad topics they oversee is made early.

      The individuals are permitted to pick their topics of energy from among these booked worldwide events. Altered syntheses of all subjects of trade, and productions to be shown are requested up to this time.

      These gatherings have analysts, researchers, creation affiliations, and operators of the pharmaceutical and compound associations. Science Conferences fill in as a help for the start of new contemplations identifying with novel possible results in the field, for instance, improvement/amalgamation of new therapeutic molecules, headway/blend of new materials or composites to be used as a piece of mining or establishment, a progression of new systems for driving compound reactions, or unmistakable confirmation of new segments in the intermittent table having novel properties, etc.

      The best draw of Conferences is that they license scientists, specialists, and specialists to orchestrate; individuals find the opportunity to contact and meet new people in an easy-going situation.

      Notable Highlights:

      Organic Chemistry and Inorganic Chemistry Conference is an interesting stage which means to examine finding out about science, natural and inorganic science will observer a get together of specialists from everywhere throughout the world.

      - Meet prominent specialists and identities working in the field of Organic and Inorganic science

      - Enhance your insight

      - Share your creative thoughts

      - Worldwide Networking and Career Opportunities

      Conference Highlights:

      Fundamental Concepts of Organic Chemistry

      Medicinal and Bioorganic Chemistry

      Computational Chemistry and Cheminformatics

      Green and Environmental Chemistry

      Polymer and Monomer

      Analytical Chemistry

      Biochemistry and Agricultural chemistry

      Inorganic Materials and Nanoparticles

      Natural Products and Heterocyclic Chemistry

      Organic Structures Identification and Spectroscopic Methods

      Bioorganometallic Chemistry

      Stereo-Chemistry and Solid-State Organic Chemistry

      Phytochemistry and Pharmacognosy

      Industrial Chemistry

      Organic Chemical Engineering

      Physical Organic Chemistry

      Advanced Synthesis and Catalysis

      Flow Chemistry

      Combinatorial Chemistry

      Modern Organic Chemistry and Applications

      Intended Audience:

      Students, Organic Chemists, Professors, Associate and Assistant Professors in Chemistry, Post-doctoral, and Researchers in Chemistry, Heads of Chemical Departments, Post Graduates, and Graduates in Medicinal Chemistry, Laboratory Chemists, Scientists, Chemical Industries, etc.

      Why Attend?

      With people from around the world focused on getting some answers concerning science, common and inorganic science; this is your single most obvious opportunity to accomplish the greatest gathering of individuals.

      Lead presentations, fitting information, meet with present and potential customers, impact a sprinkle with another thing to the line and get name affirmation at this 2-day event.

      Inconceivably well-known speakers, the most recent systems, techniques, and the most exceptional revives in fields are indications of this gathering.

      Scientific Session

      Session on Fundamental Concepts of Organic Chemistry

      Organic molecules contain carbon atoms. The carbon atoms area unit covalently bonded to unlike atoms and abundant chains of carbon atoms is found in most each molecule. Carbon has four valence electrons and so can create four bonds in accordance with the octet rule. All non-carbon-to-carbon bonds are going to be expected to be carbon-hydrogen bonds as atomic number 1 atoms area unit the foremost ordinarily found hooked up atom. Atomic number 1 has one negatron and can create one chemical bond. The atom can construct single, double and triple bonds furthermore as bonding with chemical element nitrogen, chlorine or bromine. A chemical element has six valence electrons and can create 2 valence bonds. One bond and a covalent bond area unit each potential for chemical element atoms. Gas has 5 valence electrons and can create 3 valence bonds. Single, double and triple bonds area unit all potentialities for gas atoms.

      Types and characterization of organic compounds

      Efficiency in Organic Synthesis

      Organic Synthesis for Materials Science

      Organic Synthesis for Life Science

      Functional groups

      Aliphatic and aromatic compounds

      Nomenclature of new compounds

      Session on Medicinal and Bioorganic Chemistry

      Medicinal chemistry deals with the design, optimization, and development of chemical compounds for use as drugs. It is inherently a multidisciplinary topic — beginning with the synthesis of potential drugs followed by studies investigating their interactions with biological targets to understand the medicinal effects of the drug, its metabolism, and side-effects.

      Pharmaceutical Sciences

      Drug discovery

      Anticancer agents

      Pharmacology and toxicology

      CADD (Computer Aided Drug Design)

      Drug Design and Drug Development

      Pharmacognosy and Pharmacokinetics

      Pharmaceutical Industry

      lead optimization

      Synthesis and Medicinal Chemistry for Cancer and Age-Related Diseases

      QSAR (Quantitative Structure-Activity Relationship) Fragment-Based Drug Design

      Organic and Medicinal Chemistry Technologies for Drug Discovery

      Session on Computational Chemistry and Cheminformatics

      Computational chemistry describes the use of computer modeling and simulation including ab initio approaches based on quantum chemistry, and empirical approaches to study the structures and properties of molecules and materials. Computational chemistry is also used to describe the computational techniques aimed at understanding the structure and properties of molecules and materials.

      Cheminformatics is the couple use of computer and informational techniques to a wide range of problems in the field of chemistry. These in silico techniques are used, for example, in pharmaceutical companies in the process of drug discovery. These methods can also be used in chemical and allied industries in various other forms. Also deals with graph mining, molecule mining, etc.

      Chemoinformatic and its applications

      Visualizing Electronic Structures and Electrostatic Potentials

      Analyzing Organic Reactions

      Cheminformatics tools for drug discovery

      Molecular Modelling for Organic Chemistry

      Quantitative structure-activity relationship


      Session on Green and Environmental Chemistry

      Green chemistry, also referred to as property chemistry is a part of chemistry targeted on the planning of products and processes that minimize the utilization and generation of hazardous substances. Environmental chemistry focuses on the consequences of polluting chemicals on nature inexperienced chemistry focuses on technological approaches preventing pollution and reducing consumption of unrenewable resources. Green chemistry overlaps with all subdisciplines of chemistry however with a specific target chemical synthesis, method chemistry, and chemical engineering in industrial applications. To a lesser extent the principles of green chemistry conjointly affect laboratory practices.

      Green catalysis

      Green chemical solvents

      Chemical risk and regulatory issues

      Human exposure and toxicity

      Probes of Applied Science

      Analysis of Semi and Volatile Compounds

      Chemical Life Science

      Environment Toxicology

      Session on Polymer and Monomer

      A polymer is a large unit of molecule or macromolecule, composed of many repeated subunits. Because of their wide range of properties, both synthetic and natural polymers play an essential role in daily life. Polymers range from familiar synthetic plastics such as polystyrene to natural biopolymers such as DNA and proteins that are fundamental to biological structure and function. Polymerization is a method of creating natural and synthetic fibers from monomers (small molecules) many small molecules are known as monomers. They're consequently large molecular mass relative to small molecule compounds produces unique physical properties, including toughness, viscoelasticity, and the tendency to form glasses and semi-crystalline structures rather than crystals.

      Polymers for energy

      Smart and novel functional polymers

      Supramolecular chemistry for polymers

      Bio-inspired polymers for health

      Bio-based polymers and their applications

      Polymer synthesis and polymer coating

      Enzyme kinetics and thermodynamics of enzymatic reactions

      Session on Analytical Chemistry

      Analytical chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter. We can also say; it is an art and science of determining what matter is and how much of it exists. Analytical chemists use their knowledge of chemistry, instrumentation, computers, and statistics to solve problems in almost all areas of chemistry and for all kinds of industries.

      Standardizing analytical methods

      Equilibrium chemistry

      Spectroscopic methods

      Electrochemical methods

      Gravimetric methods

      Titrimetric methods

      Chromatographic & Electrophoretic

      Quality assurance

      Additional resources

      Session on Biochemistry and Agricultural chemistry

      Agricultural chemistry deals with both chemistry and biochemistry which are crucial in agricultural production, the processing of raw products into foods and beverages, and in environmental monitoring and remediation. It also deals with other means of increasing yield, such as herbicides and growth stimulants and serves as the scientific basis for introducing chemical processes into agriculture.

      As a basic science, it embraces additionally to test-tube chemistry; all the life processes through that humans acquire food and fiber for themselves and feed for their animals. As engineering or technology, it's directed towards management of these processes to extend yields, improve quality and cut back prices.

      Biochemistry and agrochemicals

      Biochemistry and metabolism

      Elementary calculus

      Weed biology and control

      Environmental management

      Session on Inorganic Materials and Nanoparticles

      Metal homeostasis is broadly defined as the metal uptake, trafficking, efflux, and sensing pathways that allow organisms to maintain an appropriate often narrow intracellular the concentration range of essential transition metals. Metal centers are essential and abundant cofactors in fundamental life processes such as photosynthesis, respiration, and hydrogen, nitrogen carbon, and sulfur metabolism, and the number and diversity of metalloproteinase and the biological roles for metal centers continue to proliferate unabated. Indeed, metal centers are estimated to be present in approximately one-half of all proteins and to constitute the active sites of at least one-third of all enzymes. Metalloprotein is a generic term for a protein that contains a metal ion cofactor. Many proteins are part of this category. Metalloproteins have captivated chemists and biochemists, particularly since the 1950s, when the first X-ray crystal structure of a protein, sperm whale myoglobin, indicated the presence of an iron atom. They account for nearly half of all proteins in nature.

      Inorganic Nanocrystals

      Inorganic Nanomaterials Synthesis

      Materials Science and Engineering

      Polymer technology

      Nanotechnology in material science

      Mining, Metallurgy and Materials Science

      Computational Materials Science

      Metal Oxide Nanoparticles

      New trends in green chemistry

      Session on Natural Products and Heterocyclic Chemistry

      More than 40% of the chemical scaffolds found in natural products are absent in nowadays medicinal chemistry repertoire. Based on various chemical properties, combinatorial compounds occupy a much smaller area in molecular space than natural products. Natural products undergo primary metabolites and secondary metabolites, Natural products undergo biosynthesis and produce carbohydrates and fatty acids and polypeptides. Their main sources are from prokaryotic, bacteria, archaea, eukaryotic, fungi, plants, animals. Heterocyclic chemistry deals with the synthesis, properties, and applications of the heterocyclic compound. A cyclic organic compound containing all carbon atoms in ring formation is referred to as a carbocyclic compound. If at least one atom other than carbon forms a part of the ring system, then it is designed as a heterocyclic compound. Nitrogen, oxygen, and sulfur are the most common heteroatoms but heterocyclic rings containing other heteroatoms are also widely known.

      Chemistry and efficacy of natural products

      Heterocyclic Anticancer Compounds

      Safety and regulations on natural products

      Cosmeceuticals, nutraceuticals (functional foods) and beverages

      Health and beauty product development and innovation

      Methodologies for natural products

      Session on Organic Structures Identification and Spectroscopic Methods

      Discussion on new methodologies involved in the determination of organic structures. Methods which 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.

      Applications to the Identification of Structure

      Application of Spectroscopic Methods in Molecular Structure Determination

      Determination of organic compounds by Mass Spectrometry

      Session on Bioorganometallic Chemistry

      Bioorganometallic chemistry involves the development of new drugs and study of biologically active molecules that contain carbon directly bonded to metals or metalloids as well as the principles relevant to the toxicology or organometallic compounds. Organic Chemistry 2019 will be a platform for discussing organometallic compounds which are used in medicine and diverse therapies are the platform to design the new radiopharmaceuticals.

      Organometallic nomenclature

      Carbon metal Bonds in organometallic compounds

      Medical applications of organometallic compounds

      Biologically inspired organometallic catalysis

      Supramolecular bioorganometallic chemistry

      Organometallic-modified proteins and nucleic acids

      Organometallic Drugs

      Structural Diversity of Organometallic Complexes

      Grignard reagents

      Transition metal organometallic compounds

      Carbenes and carbenoids

      Session on Stereo-Chemistry and Solid-State Organic Chemistry

      Stereochemistry is the chemistry which deals with the different arrangement of atoms or groups in a molecule in space. Louis Pasteur was the first stereo chemist, having observed in 1849 from wine collected salts of tartaric acid production vessels could rotate plane polarized light, but that salts from other sources. The only physical property, in which the two types of tartrate salts differed, is due to optical isomerism. Stereochemistry plays a very vital role in our day to day life. It has been observed that many living systems, plants and many pharmaceuticals possess or respond to only an arrangement in a molecule and are found to be stereospecific in nature, for example, the double helical form of D.N.A turns in a right-handed way, honeysuckle winds as a left-handed helix. Only one form of sugar plays a unique role in animal metabolism and is the basis of a multimillion-dollar fermentation industry. Structural Isomers are isomers which have the same molecular formula but differ in their structures. The list of different types of structural isomers is position isomer; chain Isomers, metameric, and functional Isomers.

      Physical transformations

      Solid state photochemical reactions

      Conformations and Chirality

      Analysis of 3-D arrangement of molecules

      Probe reaction mechanisms

      Stereochemical Issues in Chemical Biology

      Related Inorganic Chemistry Conference | Inorganic Chemistry Congress | Inorganic Chemistry Conferences | Polymer Chemistry Conferences | Analytical Chemistry Conferences | Green Energy Conferences

      Session on Phytochemistry and Pharmacognosy

      Phytochemistry can be considered sub-fields of botany or chemistry. Activities can be led in botanical gardens or in the wild with the aid of ethnos botany. Techniques commonly used in the field of phytochemistry are extraction, isolation, and structural elucidation (MS, 1D, and 2D NMR) of natural products, as well as various chromatography techniques (MPLC, HPLC, and LC-MS).

      Pharmacognosy is the study of medicinal drugs derived from plants or other natural sources, also we can say "the study of the physical, chemical, biochemical and biological properties of drugs, drug substances or potential drugs or drug substances of natural origin as well as the search for new drugs from natural sources". It is also defined as the study of crude drugs.

      Natural products chemistry in drug discovery

      Isolation and structure determination of natural products

      Analyzing pharmacogenomics studies


      Herbs and botanicals as dietary supplements


      Session on Industrial Chemistry

      Industrial inorganic chemistry includes subdivisions of the chemical industry that manufacture inorganic products on a large scale such as the heavy inorganics sulfates chlor-alkalis, sulfuric acid, and fertilizers. The chemical industry adds value to raw materials by transforming them into the chemicals required for the manufacture of consumer products. The top 20 inorganic chemicals manufactured in India, Japan, Canada, China, Europe, and the US in the year 2005. Traditionally, the scale of a nation's economy could be evaluated by their productivity of sulfuric acid. Inorganic chemistry is a highly practical area of science. Inorganic compounds which are mostly manufactured are hydrogen, hydrogen peroxide, nitric acid, nitrogen carbon black, chlorine, hydrochloric acid, oxygen, phosphoric acid, sodium carbonate, sodium chlorate, sodium hydroxide, sodium silicate, sodium sulfate, sulfuric acid, aluminum sulfate, ammonia, ammonium nitrate, ammonium sulfate and titanium dioxide.

      Chemical industry revolution

      Materials for fuel-cell technology

      Quality Control of Crude Drug Materials

      Petroleum and Petrochemicals Distillations

      Assay Values of Crudes and its Reconfigurations

      Organic Chemistry and its Clinical Diagnostics Techniques in Industries

      Industrial pharmaceutics

      Modern methods in chemical analysis

      Session on 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.

      Industrial organic chemical engineering

      The fundamental concept of organic chemical engineering

      Advanced engineering processes

      Session on 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.

      Atomic theory

      Supramolecular Interactions

      Biophysical Chemistry

      Thermochemistry and quantum chemistry

      Chemical bonding, aromaticity, anti and homoaromatic and structures

      Solvent effects and isotope effects on organic reactions

      Acidity, nucleophilicity, and electrophilicity


      Session on Advanced Synthesis and Catalysis

      Catalysis is the expansion in the rate of a synthetic response because of the cooperation of an extra substance called a catalyst. As a rule, responses happen speedier with a catalyst since they require less enactment vitality. Moreover, since they are not expended in the catalyzed response, impetuses can keep on acting over and over. Frequently just little sums are required on a basic level. A portion of the biggest scale chemicals is delivered by means of reactant oxidation, frequently utilizing oxygen. Cases incorporate nitric corrosive (from alkali), sulfuric corrosive (from sulfur dioxide to sulfur trioxide by the loading procedure), terephthalic corrosive from p-xylene, and acrylonitrile from propane and smelling salts.

      Heterogeneous catalytic process

      Catalyst formulation and preparation methods

      Catalysts characterization methods

      Mechanism of catalytic reactions

      Session on Flow Chemistry

      Flow chemistry defines a very general range of chemical processes that occur in a continuous flowing stream, conventionally taking place in a reactor zone. The application of flow chemistry relies on the concept of pumping reagents using many reactors types to perform specific reactions. . In any case, the term has just been authored as of late for its application on a research center. Often, smaller scale reactors are utilized.

      Flow Photochemistry

      Continuous flow reactors

      Electrochemistry in combination with flow chemistry

      Segmented flow chemistry

      Flow process in the pharmaceutical industry

      Organic synthesis inflow

      Sustainable flow chemistry in drug discovery

      Application of flow chemistry

      Session on Combinatorial Chemistry

      Combinatorial chemistry is a technique in which several millions of molecular constructions are synthesized and tested for biological activity. It is a trending method developed by researchers to reduce the time and cost of producing marketable and effective new drugs. This has captured attention in many areas including pharmaceutical chemistry biotechnology and agrochemistry. The application is also so large that by producing larger and diverse compounds companies increase the probability that they will find novel compounds of significant commercial values. Thus, they are mainly focused on the drug discovery process.

      Parallel Synthesis of Combinatorial Chemistry

      Application of Solid Phased Reagents

      Diversity in Oriented Synthesis

      Session on Modern Organic Chemistry and Applications

      Modern Analytical chemistry studies and uses instruments and methods used to separate, identify, and quantify matter. Instruments used are Spectroscopy Mass spectrometry, electrochemical analysis, Thermal analysis, Separation, Hybrid techniques, Microscopy, Lab-on-a-chip. Modern analytical chemistry consists of classical, wet chemical methods and modern, instrumental methods. Pharmaceutical Analytical Chemistry is an interdisciplinary branch between Pharmacy and Medicinal Chemistry, Pharmacology, Pharmacognosy, Pharmaceutical Analysis, Computational Chemistry & Molecular Modelling, Drug Design, Pharmacokinetics, Pharmacodynamics, Pharmacoinformatic, Pharmacovigilance, Chemoinformatic, Pharmacogenomics. Nanocatalysis is recently growing field and is a crucial component of sustainable technology and organic transformations applicable to almost all types of catalytic organic transformations. Among Nanocatalysts, several forms such as magnetic Nanocatalysts, Nano mixed metal oxides, core-shell Nanocatalysts, Nano-supported catalysts; graphene-based Nanocatalysts have been employed in catalytic applications. The field of benign organic synthesis has lately embraced various innovative scientific developments accompanied by improved and effective synthetic practices that avoid the use of toxic reagents reactants.

      Organic synthesis

      Development of synthetic methodologies

      Functional organic materials


      Bioorganic Chemistry

      Asymmetric Reactions

      Metals in Organic Chemistry


      Nanostructures from DNA building blocks

      Supramolecular and macromolecular chemistry

      Physical and computational organic chemistry

      Tuberculosis diagnostics



      Structural biology by NMR

      Cost: $999 – $2,699

      Categories: Conferences & Tradeshows

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