4th International Conference on Organic Chemistry

Webinar

October 26-27, 2022

We would like to announce“4th International Conference on Organic Chemistry” which is going to be held on September 07-08, 2022 | Webinar with theme Discovering the Scientific and Innovative progressions in Organic Chemistry

Organic Chemistry 2022 is an international study of new compounds and their reactivity in areas such as structure, binding, chemistry and organic metal chemistry, organic chemistry, biogeochemical, marine chemistry, petrochemicals, bioorganic and medicinal chemistry. Platform. Areas of modern experimental chemistry, modern analytical chemistry, modern theoretical chemistry, combination chemistry, microwave chemistry, green chemistry, spectroscopy, new synthetic pathways, and advances in catalysis.

 Chemistry Conference: Organic chemistry is the study of the structure, properties, composition, reactions, and formation of carbon-containing compounds. Most organic compounds contain carbon and hydrogen, but can contain any number of other elements (nitrogen, oxygen, halogens, phosphorus, silicon, sulphur, etc.).

We would like to welcome participants from all over the world to attend the “4th International Conference on Organic Chemistry” which is going to be held on September 07-08, 2022 |  Webinar.

Organic Chemistry 2022 is mainly based on the theme “Discovering the Scientific and Innovative progressions in Organic Chemistry”.

Development of organic chemistry is currently at the peak of its relevance. It’s truthfully represents one of the most priorities in development of new technologies and applications. Recent advancement in the chemical sciences provide outstanding opportunities of obtaining the most complex molecular structure.

Remodeling organics materials and methods and their continuously increasing impact on life science, nanotechnology, catalysis, energy research, additive manufacturing, photonics, electrochemistry, biomass recycling, and many other modern activities are approaching a point of cost-effective commercialization.

Session 01: Organic Chemistry

Organic chemistry is a branch of chemistry that studies the structure, properties, and reactions of organic compounds, including carbon-carbon covalent bonds. Structural studies determine its structural formula. Property studies include physical and chemical properties as well as chemical reactivity assessments to understand their behaviour. Studies of organic reactions include the chemical synthesis of natural substances, drugs, and polymers, as well as the study of individual organic molecules through laboratory and theoretical (silicon) studies. In which scientists create new atoms and study the properties of existing mixtures. A mixture of nature surrounds us. They are  the basis of US financial development  in rubber bands, plastics, fuels, pharmaceuticals, beauty and cleaning products, coatings, dyes, and pesticide ventures, to name just a few. Many innovative materials are, in any case, incompletely made from natural mixtures.

·         Natural products

·         Development of synthetic methodologies

·         Physical and computational organic chemistry

·         Functional organic materials

Related Associations and Societies: American Chemical Society Division of Organic Chemistry | ACS Women Chemists Committee | ACS Younger Chemists Committee | Central New Mexico Section of the American Chemical Society | Association for Chemical and Molecular Sciences | World Chlorine Council American Chemical Society

Session 02:  Inorganic Chemistry

Inorganic chemistry deals with the behaviour and synthesis of inorganic and organometallic compounds. The field of inorganic chemistry includes compounds that are not based on carbon. Inorganic chemistry is applied in many areas of the chemical industry, including catalysis, materials science, pigments, surfactants, coatings, pharmaceuticals, fuels and agriculture. Simply put, inorganic chemistry is the opposite of organic chemistry. Substances that do not have carbon-hydrogen bonds are metals, salts, substances, and so on. Many inorganic compounds are used in electric circuits such as electric fields and silicon. Traditionally, the size of a country's economy could be judged by the productivity of sulfuric acid. Fertilizer production, which often begins with the Haber process, is another practical application of industrial inorganic chemistry.

·         Organometallic Chemistry

·         Acid , Bases and Salts

·         Crystal Field Theory

·         Chemical Bonding

Related Associations and Societies Heterocyclic and Synthesis Group | International Mass Spectrometry Foundation | North American Catalysis Society | European Federation of Chemical Engineering | International Association of Chemical Thermodynamics | Biochemical Society

Session 03: Computational Advances in Organic Chemistry

Modern organic chemistry deals with natural chemistry uses many unique strategies to have a look at natural compounds like nuclear magnetic resonance (NMR) spectroscopy which deals with atom connectivity, elemental evaluation which refers to deduction of elemental composition of a molecule, mass spectrometry which is the take a look at of molecular weight and pattern of its shape, crystallography which offers with locating molecular geometry.

·         Mass spectrometry

·         Nuclear magnetic resonance (NMR) spectroscopy

·         Molecular geometry

·         Instrumentation &techniques

Related Associations and Societies: Belgian Society of Biochemistry and Molecular Biology | German Chemical Society | Italian Chemical Society | International Union of Biochemistry and Molecular Biology | Japan Society of Nuclear and Radiochemical Sciences | National Organization for the Professional Advancement of Black Chemists and Chemical Engineers

Session 04: Physical Organic Chemistry and Bio Organic Chemistry

Physical organic chemistry use theoretical and experimental approaches to classical and statistical thermodynamic calculations, quantum mechanical theory and computational chemistry, as well as experimental spectroscopy (such as NMR), spectroscopy (such as MS). , And understand these basic problems in organic chemistry, including crystallization approaches. .. Therefore, this field includes a wide range of more specialized fields including electrochemistry and photochemistry, polymer and supramolecular chemistry and bioorganic chemistry, enzymology and chemical biology, as well as process chemistry, chemical engineering, materials science and nanotechnology. Applies to commercial enterprises. Pharmacology in drug discovery by design.

Bioorganic chemistry is a scientific field that combines organic chemistry and biochemistry. The field of life science deals with the investigation of biological processes using chemical methods. Protein and enzyme function is an example of these processes. The difference is that bioorganic chemistry is an organic chemistry that focuses on the biological side. Biochemistry aims to use chemistry to understand biological processes, while bio-organic chemistry seeks to extend organic chemistry research (i.e., structure, synthesis, kinetics) to biology. .. Bioorganic chemistry overlaps with bioinorganic chemistry in the study of metal enzymes and cofactors.

·         Thermodynamic Calculations

·         Quantum Mechanical Theory

·         Photochemistry

·         Protein and Enzyme Function

·         Biochemistry Aims

Related Associations and Societies: World Association of Theoretical and Computational Chemists | World Chlorine Council | International Mass Spectrometry Foundation | European Federation of Chemical Engineering | Biochemical Society | World Chlorine Council American Chemical Society

Session 05:  Medicinal Chemistry

Medicinal chemistry is a crossroads of chemistry, especially synthetic organic chemistry and pharmacology and various other biological disciplines, involved in the design, chemical synthesis, and development of pharmaceuticals or bioactive molecules (pharmaceuticals) for the market. Medicinal chemistry is a set of organic, physical, and computational focus in addition to biological disciplines such as biochemistry, molecular biology, pharmacology and pharmacology, toxicology, veterinary medicine and human medicine. It is integrated into a powerful interdisciplinary science. They use project management, statistics, and pharmaceutical business practices to systematically monitor changes in identified chemicals, are safe and effective after formulation, and therefore used to treat disease.

·         Pharmaceuticals or Bioactive Molecules

·         Pharmacology

·         Toxicology

·         Veterinary Medicine and Human Medicine

Related Associations and Societies: German Chemical Society | North American Catalysis Society | Central New Mexico Section of the American Chemical Society | World Chlorine Council American Chemical Society | International Association of Chemical Thermodynamics | Japan Society of Nuclear and Radiochemical Sciences

Session 06: Green and Environmental Chemistry

Green Chemistry: Designing chemical products and processes that minimize or eliminate the use or production of substances harmful to humans, animals, plants, and the environment. Green Chemistry explains the technical concepts of pollution control and zero waste, both laboratory and industrial. It encourages the use of economical and environmentally friendly techniques that not only improve yields, but also reduce the cost of disposing of waste at the end of the chemical process.

Related Associations and Societies: American Chemical Society Division of Organic Chemistry | ACS Women Chemists Committee | ACS Younger Chemists Committee | Central New Mexico Section of the American Chemical Society | Association for Chemical and Molecular Sciences | World Chlorine Council American Chemical Society

Session 07: Food chemistry

Food chemistry is the study of both biological and non-biological components of food chemistry and interactions. Knowledge of food chemistry helps develop good food handling techniques and good manufacturing practices. In food chemistry, you will learn how different processing techniques can affect a particular type of food and improve the quality of the food. We do not recognize that the particular food technology we experience in our daily lives is the result of innovations in food chemistry. B. As a fermentation of dairy products, fat and sugar substitutes

·         Food Microbiology

·         Food Nutrition

·         food handling techniques

Related Associations and Societies: Heterocyclic and Synthesis Group | International Mass Spectrometry Foundation | North American Catalysis Society | European Federation of Chemical Engineering | International Association of Chemical Thermodynamics | Biochemical Society

Session 08: Modern Analytical and Theoretical Chemistry

Analytical chemistry is the science of acquiring, processing, and transmitting information about the composition and structure of a substance. In other words, it is the art and science that determines what a substance is and how much it exists. Analytical chemistry helps physicians diagnose illness and provides essential measurements and documentation for trade and commerce. Modern analytical chemistry is influenced by instrumental analysis. Many analytical chemists centre of attraction on a single type of instrument. Scholars tend to focus on either new applications or discoveries, or new analytical methods. The discovery of chemicals present in the blood that increase the risk of cancer will be discoveries that may involve analytical chemistry. Attempts to develop new methods may include the use of tuneable lasers to increase the specificity and sensitivity of spectroscopic methods.

Theoretical chemistry is a collection of principles and concepts common to all disciplines of chemistry. Within the framework of theoretical chemistry, the laws, principles and rules of chemistry are systematized, refined, detailed and hierarchically established. The study of the relationship between the structure and properties of molecular systems occupies a central position in theoretical chemistry. Modern theoretical chemistry can be broadly divided into research on chemical structure and research on chemical dynamics. The former includes the following studies: Electronic structure, potential energy surface, force field. Vibration-Rotary motion; Equilibrium characteristics between condensed phase system and polymer. Chemical dynamics include: Two-molecule dynamics and collision theory of reaction and energy transfer. Monomolecular velocity theory and metastable states; condensed phase of dynamics and macromolecular aspects.

·         Instrumental Analysis

·         Analytical Methods

·         Monomolecular Velocity Theory

·         Condensed Phase System and Polymer

Related Associations and Societies: Belgian Society of Biochemistry and Molecular Biology | German Chemical Society | Italian Chemical Society | International Union of Biochemistry and Molecular Biology | Japan Society of Nuclear and Radiochemical Sciences | National Organization for the Professional Advancement of Black Chemists and Chemical Engineers

Session 09: Crystallography

Crystallography is an experimental science for determining the grouping of atoms in a crystalline solid (see Crystal Structure). The study of crystals was based on the physical measurement of their shape using a goniometer. The angle between the crystal planes and the theoretical reference axis (crystal axis) was measured to determine the symmetry of the crystal in question. The position of each crystal plane in 3D space is plotted on a 3D mesh such as the Wulff mesh or Lambert mesh. The poles on each side are drawn on the web. Each point is labeled with a Miller index. In the last figure, the symmetry of the crystal can be established. Currently, crystallographic techniques rely on the analysis of diffraction patterns of the sample to which certain beams are directed. X-rays are the most commonly used. Other beams used include electrons or neutrons. Crystallologists often explicitly state the type of beam used, such as the terms X-ray crystallography, neutron diffraction, and electron diffraction. These three types of radiation interact with the sample in different ways.

·         Crystal Structure

·         Optical Crystallography

·         Free Electron Lasers

·         X-ray Crystallography

Related Associations and Societies: World Association of Theoretical and Computational Chemists | World Chlorine Council | International Mass Spectrometry Foundation | European Federation of Chemical Engineering | Biochemical Society | World Chlorine Council American Chemical Society

Session 10: Antibiotics

Antibiotics are powerful medicines that fight bacterial infections. Most antibiotics fall into individual antibiotic classes. The class of antibiotics is a group of different drugs that share similar chemical and pharmacological properties. Penicillin’s, tetracycline’s, cephalosporin’s, quinolones, lincomycins, macrolides, sulfonamides, aminoglycosides, and carbapenems are several classes of antibiotics. Some antibiotics work by killing bacteria (bacteria or parasites). This is often done by stand in the way of the structure of the cell wall of the bacterium or parasite. Some work by blocking the growth of bacteria and parasites. The side effects of most antibiotics are not serious. Common side effects include mild stomach upset such as loose stools (stools), diarrheal, or nausea (feeling sick). The abuse of antibiotics in recent years has reduced the effectiveness of antibiotics, leading to the emergence of super bugs.

·         chemical and pharmacological properties

·         Penicillin’s

·         Viruses

·         Antibiotic resistance

Related Associations and Societies: German Chemical Society | North American Catalysis Society | Central New Mexico Section of the American Chemical Society | World Chlorine Council American Chemical Society | International Association of Chemical Thermodynamics | Japan Society of Nuclear and Radiochemical Sciences

Session 11: Electro chemistry

Electrochemistry is the field of physical chemistry that deals with the relationship between  potential differences as  measurable and quantitative phenomena and discernible chemical changes with  potential differences as a result of specific chemical changes, or vice versa. This refers to an electrochemical process involving electron transfer between molecules or ions that change the oxidation position. The loss of an electron from an atom or molecule is called oxidation, and the acquisition of an electron is also a reduction. Reactions are classified into oxidation and reduction according to the direction of electron transfer. Electrochemistry is very important through a variety of important technical applications. This area includes not only  energy storage for mobile devices and vehicles, but also batteries for load leveling that enable the deployment of renewable energy conversion technologies. In electrochemical the lack of suitable resources for cell construction, and most importantly, the exorbitant cost of electrochemical synthesis (often). However, over the last 40 years, advances in materials science and nanotechnology, the development of in-situ spectroscopic technology, and advances in multi-scale modeling have made significant advances in electrochemical synthesis and Method 3. As a result, it is time to rethink and present some industrial electrochemical processes.

·         Industrial electrochemical processes

·         Electrochemical engineering

·         Organic electro synthesis

·         Batteries and fuel cells

Related Associations and Societies: American Chemical Society Division of Organic Chemistry | ACS Women Chemists Committee | ACS Younger Chemists Committee | Central New Mexico Section of the American Chemical Society | Association for Chemical and Molecular Sciences | World Chlorine Council American Chemical Society

Session 12: Nano chemistry

Nanochemistry is a combination of chemistry and nanoscience. Nanochemistry includes the synthesis of building blocks according to size, surface area, shape, and defect properties. Nanochemistry is used in chemical, material and physical, scientific and engineering, biological and medical applications. Other areas of nanochemistry and nanoscience share the same core concepts, but their usage is different. Nanochemistry can be characterized by the concepts of size, shape, self-organization, defects, and bio-nano. Therefore, the synthesis of each new nanoconstruct is related to all these concepts. The synthesis of nanoconstructs depends on how surface area, size, and shape lead to self-organization of building blocks into functional structures. They are likely to have functional flaws and can be useful for electronic, photonic, medical, or bioanalytic problems. Silicon dioxide, gold, polydimethylsiloxane, cadmium selenite, iron oxide, and carbon are materials that demonstrate the transformative power of nanochemistry. Nanochemistry can make iron oxide (rust) the most effective contrast agent for MRI. It has the ability to detect cancer and even kill it in the early stages. Silica (glass) can be used to bend or stop light in its path. Carbon nanomaterials such as carbon nanotubes (CNTs), grapheme, and fullerenes can be manufactured using nanochemical techniques. Nanochemical methods have attracted attention in recent years due to their excellent mechanical and electrical properties.

·         Nanotopography

·         Nanolithography

·         Nanometer-size clusters

·         Catalysis

Related Associations and Societies: Heterocyclic and Synthesis Group | International Mass Spectrometry Foundation | North American Catalysis Society | European Federation of Chemical Engineering | International Association of Chemical Thermodynamics | Biochemical Society

Session 13: Drug Design & Chemical Engineering

The use of infectious diseases and antibiotics requires in-depth knowledge and expertise in this area by the medical team, and the principles of clinical drug treatment complete the work of clinicians in a more rational way, and some MDR important drug activity. We can use the method used by researchers in the laboratory from 1800 to 1900 to obtain better pharmacological molecules that can be introduced into today's therapies without many bureaucratic rules. I believe. The  dosing composition is often referred to as the discriminant structure, and the creative process of finding a new prescription is associated with training in  a natural focus in the most basic sense. The subdued composition embraces the structure of the atoms, groping for each other and charging the focal points of the biomolecules to which they contact and bind. The latest advances and cutting-edge technologies in chemical engineering that efficiently use, manufacture, convert and transport chemicals, materials and energy using the principles of chemistry, physics, mathematics and economics.

·         Medication plan and Sub-atomic docking

·         Pharmacological Molecules

·         Biomolecular

·         Process of ADME

Related Associations and Societies: Belgian Society of Biochemistry and Molecular Biology | German Chemical Society | Italian Chemical Society | International Union of Biochemistry and Molecular Biology | Japan Society of Nuclear and Radiochemical Sciences | National Organization for the Professional Advancement of Black Chemists and Chemical Engineers

Session 14: Stereo Chemistry

Stereochemistry, a sub discipline of chemistry, involves studying the structure of molecules and the relative spatial arrangement of the atoms that make up their operations. Stereo chemical research focuses on stereoisomers. By definition, steric isomers have the same molecular formula and arrangement (construction) as the bonded atoms, but the three-dimensional orientation of the atoms in space is different. Therefore, it is also called 3D chemistry­­­­. The prefix "stereo" means "three-dimensionality". An important field of stereochemistry is the study of chiral molecules. [3] Stereochemistry covers the entire range of organic, inorganic, biology, physics, especially supramolecular chemistry. Stereochemistry includes methods for determining and explaining these relationships. The effect of these relationships on the physical or biological properties of the molecule in question, and how these relationships affect the reactivity of the molecule in question (dynamic stereochemistry).

·         Supramolecular Chemistry

·         Atropisomerism

·         Diastereomers

·         Enantiomers

Related Associations and Societies: World Association of Theoretical and Computational Chemists | World Chlorine Council | International Mass Spectrometry Foundation | European Federation of Chemical Engineering | Biochemical Society | World Chlorine Council American Chemical Society

Market Analysis

Global Market in Organic Chemistry

The global organic chemicals market is projected to grow from $ 8.63 billion in 2017 to $ 15.97 billion in 2025, with a CAGR of 7.49% over the projected period 2018-2025. Increasing global population, increasing urbanization, rapid development, increasing disposable income in emerging markets, and increased investment in R & D are factors driving the organic chemicals market.

 Organic chemicals are compounds that contain carbon in their molecular structure. The bonding properties of carbon form millions of compounds. These chemicals are either natural or synthetic. Widely used in various industries such as medicine, biochemistry, pharmaceuticals, pesticides, plastics and polymers, foods and beverages. Food and beverage consumption is growing rapidly around the world, as the number of low-income earners is more pronounced in emerging countries such as China and India, according to World Bank data. This has led to increased use of organic chemicals to produce more food products and is expanding the global market. Some of the carbon-containing compounds that do not count as organic compounds are cyanides, carbides, and carbonates.Global population growth, urbanization and rising disposable income in developing countries are major drivers of the organic chemicals market. In addition, increased R & D investment will lead the growth of the organic chemicals market within a few years. Tight regulations and heightened awareness of adverse health and environmental impacts, along with weak economic scenarios, can limit market growth. However, strong growth across the various industries is expected to boost the organic chemicals market over the forecast period.

Organic Chemistry Industry’s

New organic growth begins as companies consider how digitization affects every part of the value chain, from raw materials to end users. To understand the potential, the best companies form cross-functional teams with members from marketing and sales, R & D and product development, and downstream market experts. This cross-section of talent is needed to identify promising opportunities across the organization, plan how to take advantage of them, and transform insights into new products and services, or new value propositions for existing ones. However, to capture all opportunities, you need to fully understand the needs of your end users. That's why the best team’s interview and monitor to understand what they're doing with their products and technologies, and what improvements and innovations they want. For example, new opportunities created by digital advances such as 3D printing have led material companies to introduce innovative products. Examples include a new class of polymers with structural stability that replaces metal plates and prostheses in bone surgery, and colored  polylactic acid to meet customer aesthetic needs. Disruption of existing supplies often involves the risk of cannibalism, so leaders must carefully assess changes in the value pool before taking action.