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December 06-07, 2018, Las Vegas, Nevada, USA

International Conference on Advanced Chemistry and CatalysisAdvanced Chemistry and Catalysis Engineering

 

  

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December 06-07, 2018, Las Vegas, Nevada, USA

International Conference on Advanced Chemistry and CatalysisAdvanced Chemistry and Catalysis Engineering

About The Conference

International Conference on Advanced Chemistry and Catalysis (Advanced Chemistry 2018) is scheduled during December 06-07, 2018 in the colourful city Las Vegas, United States with an objective to centralize all the academicians, researchers and students of Chemistry and Chemical Engineering to discuss the possibilities and recent approaches to develop the latest technologies to benefit the scientific community to make a better platform to learn more interesting facts of chemistry. Thus, PAGES-Pangea Global Events is giving an international platform for the budding researchers and scientists to exchange your research views.

Scientific Sessions and TopicsAdvanced Chemistry 2018 will focus on the topics from fundamentals like Inorganic Chemistry, Organic Chemistry, Analytical and Physical Chemistry. Besides fundamentals, the advanced topics like Materials Chemistry, Polymer Chemistry, Radioactive Chemistry, Environmental Chemistry, Green Chemistry and Emerging techniques in Chemistry. 

Track 1 Inorganic ChemistryInorganic Chemistry includes the study of elements with either metallic or non-metallic properties. Most of the elements are metallic for example alkali metals, alkaline earth metals, transition metals and so on. The category of non-metallic elements mainly contains elements which are gaseous in nature like hydrogen, oxygen and so on including noble gases. These all were segregated to produce new inorganic compounds based on the particular process of synthesis.
Sub-topics

  • Mechanistic inorganic chemistry
  • Classification and Characterization of inorganic compounds
  • Transition Metal Complexes and Redox Reactions
  • Synthetic and reaction chemistry
  • Theories of Inorganic Chemistry
  • Bioinorganic chemistry
  • Organometallic and supramolecular chemistry

 

Track 2 Organic Chemistry: Organic chemistry is a chemistry sub-discipline concerned about the study of the properties, structure, and reactions of organic materials and organic compounds, i.e., matter in various forms that contain carbon atoms. Organic reactions study includes their scope through use in preparation of target compounds by chemical synthesis, as well as the attentive study of the reactions of individual organic molecules, both in the theoretical and laboratory study. Organic chemistry includes the synthesis, analytical methods, structure determination, reaction mechanisms and kinetics, and spectroscopic methods. It also includes organometallic chemistry, where it deals with the study of carbon-based compounds that contain metals. It also includes stereochemistry where it deals with the relative spacial arrangement of atoms. Methods of organic chemistry are heavily used in polymer chemistry, materials science and natural product chemistry.
Sub-topics

  • Characterization and properties
  • Classification, chemical reactions and synthesis of organic compounds
  • Graphene and Fullerene
  • Diamond, Graphite and Carbon Chemistry
  • Aromatic compounds: reactions and synthesis
  • Conjugated systems and pericyclic reactions

 

Track 3 Analytical ChemistryAnalytical chemistry is the component of chemistry most closely related to engineering and involves in the development of new instrumentation and new technology used to separate, identify, and quantify matter. It is concerned with the practical applications of chemistry, has seen increased interest in the emergence of the mega-interdisciplinary areas of nanotechnology and systems biology. It consists of classical, wet chemical methods and modern, instrumental methods. Classical qualitative methods use separation methods such as precipitation, extraction, and distillation.  Instrumental methods may be used to separate samples using chromatography, electrophoresis or field flow fractionation.
Sub-topics: 

  • Quantitative analysis
  • Qualitative analysis
  • Advances in analytical methods
  • Novel Approaches to Analytical Chemistry
  • Nanotechnology Applications in Analytical Methods
  • Drug Screening: Strategy and Methods
  • HPLC Analytical Method Development and Validation
  • Analytical Research Methodology
  • Chemical Analytical Methods
  • Analytical Equipment in Business

 

Track 4 Physical ChemistryPhysical chemistry is the study of how matter behaves on a molecular and atomic level and how chemical reactions occur. Based on their analyses, physical chemists may develop new theories, such as how complex structures are formed. Physical chemists often work closely with materials scientists to research and develop potential uses for new materials. Physical chemistry has traditionally given students broad training, and positioned them to work in a variety of scientific careers. Many people trained as physical chemists ultimately work as analytical chemists, where they work to understand the fundamental process involved in analytical techniques, allowing them to enhance and expand those techniques.
Sub-topics: 

  • Physical Chemistry: A Molecular Approach
  • Theoretical and Computational Chemistry
  • Chemical Physics
  • Chemical Kinetics
  • Surface Science
  • Spectroscopy
  • Photochemistry
  • Quantum Chemistry
  • Solid-state Chemistry
  • Thermochemistry
  • Biophysical Chemistry

 

Track 5 Materials ChemistryMaterials 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. It also involves the characterization, processing and molecular-level understanding of these substances. There is a lot of debate about what materials chemistry actually is. There are some that say materials chemists are just chemists in search of funding in much the same way as the physics community leaned hungrily towards materials science in search of funding over the last decade. At the other end of the spectrum there are those that take a universal view and include solid-state chemistry, carbon science and even polymer science in their definition. Of course, the truth lies between these two extreme cases and there are various committees around the world, including the NSF in the USA, engaged in trying to pin the definition down.
Sub-topics: 

  • Materials Science and Chemistry 
  • Materials Synthesis and Characterization
  • Analytical Techniques and Instrumentation in Materials Chemistry
  • Polymeric Materials
  • Nanomaterials
  • Applied Materials Chemistry
  • Materials Chemistry and Physics
  • Science and Technology of Advanced Materials

 

Track 6 Radioactive Chemistry and ReactorsThe property of emission of radioactive rays from radioactive elements is termed as radioactivity. Generally, elements with atomic number more than 82 show radioactivity and disintegrated to small nuclei with the emission of alpha, beta, proton, neutron particles or gamma rays. This nuclei with decomposed is called as parent nuclei and the product nuclei is termed as daughter nuclei. The atomic number and mass depends upon the type of radioactive rays emitted during nuclear reaction. The decay of radioactive parent nuclei to stable nuclei is known as radioactive decay or nuclear decay. The radioactive elements used in many different fields. Like; in atomic energy, agriculture, in different industries and in rock dating process. With advantages of radioactivity; the over dose of radioactive substances show so many adverse effect like; nausea, vomiting, headache and some loss of blood cells.
Sub-topics: 

  • Nuclear reactors and Nuclear Energy
  • Radioactivity and its applications
  • Nuclear Chain Reactions and explosives
  • Health Hazards
  • Radioactive compounds
  • Radioactive emissions and decay

 

Track 7 Polymer ChemistryPolymer Chemistry is the branch of chemistry that deals with large molecules made up of repeating units referred to as monomers. The scope of polymer chemistry extends from oligomers with only a few repeating units to high polymers with thousands or millions of repeating units. Polymer chemistry includes branches that mimic the divisions of the field of chemistry as a whole, with synthetic (preparation methods) and physical (property determination), biological (proteins, polysaccharides, and polynucleic acids), and analytical (qualitative and quantitative analysis) chemistry. Pre-existing polymers can also be modified by chemical means - including grafting or functionalization reactions. Polymerization and modification reactions can be employed to produce designer polymers as new materials with practically any desired properties.
Sub-topics: 

  • Biodegradable Plastics
  • Biopolymers
  • Monomers
  • Poly-3-hydroxybutyrate (PHB)
  • Polylactic Acid
  • Polymer Characterization
  • Polymer Chemistry
  • Polymer Design
  • Bio Based Polymers
  • Packaging Polymers

 

Track 8 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.
Sub-topics: 

  • Pharmaceutical Chemistry Novel Aspects
  • Prospective of Medicinal Chemistry
  • Computational Chemistry and Chemical Biology
  • Biopharmaceutical and Biologic Drugs
  • Green Chemistry in Pharma Industry
  • Drug Designing Methodologies
  • Drug Delivery techniques
  • Drug Discovery and Development
  • Concepts of Traditional Medicines
  • Drug Formulation / Pharmaceutical formulation

 

Track 9 Environmental Chemistry & RecyclingEnvironmental chemistry is the scientific review of the chemical and biochemical phenomena that occur in natural places. Environmental chemistry can be described as the study of the sources, reactions, transport, effects of chemical species in the air, soil, and water environments; and the effect of human activity on these. Environmental chemistry is an integrative science that includes atmospheric, aquatic and soil chemistry, as well as uses analytical chemistry. It is allied to environmental and other areas of science. It is different from green chemistry, which tries to trim potential pollution at its source. Whereas Environmental engineering deals with the combination of sciences and engineering principles to develop the natural environment, to provide healthy air, water, and land for human habitation and for other organisms, and to procure pollution sites.
Sub-topics: 

  • Chemical Ecology
  • Ecotoxicology
  • Environmental Chemistry
  • Food Chemistry
  • Geochemistry
  • Green Chemistry
  • Ocean Chemistry
  • Soil Chemistry

 

Track 10 Food Chemistry: Food chemistry is the science that deals with the chemical composition and properties of food and the chemical changes it undergoes. Food composition data (FCD) are detailed sets of information on the nutritionally important components of foods and provide values for energy and nutrients including protein, carbohydrates, fat, vitamins and minerals and for other important food components such as fibre. The data are presented in food composition databases (FCDBs). Knowledge of the chemical composition of foods is the first essential in dietary treatment of disease or in any quantitative study of human nutrition.
Sub-topics:

  • Food Science and Technology
  • Agrochemistry
  • Chemistry of Food Constituents
  • Hydrocolloids in Food Industry
  • Rheology and Kinetics of Chemical Reaction in Food
  • Food Preservatives and Packaging
  • Food Adulteration
  • Regulatory Control of Food Composition, Quality, and Safety
  • Nutrition and Functional Foods
  • Nutritional Disorder Management
  • Nutraceuticals and Dietary Supplements
  • Current Research in Food Chemistry, Nutrition and Dietetics
  • Food Waste and Recycling

 

Track 11 Biochemistry & Forensics: Biochemistry goes about as an instrument to explore and to ponder atomic science, manages the structure, capacity and associations among natural macromolecules. It incorporates every one of the parts of present day sub-atomic and cell organic chemistry. Atomic science being the investigation of sub-atomic underpinnings of the procedures of replication, interpretation, interpretation, and cell work. The focal code of atomic science where hereditary material is translated into RNA and after that changed over into protein, regardless of being distorted, still gives a decent beginning stage to understanding the field.
Sub-topics:

  • Central Dogma
  • DNA polymerases
  • Enzymology
  • Gel Electrophoresis
  • Gene Therapy
  • Gluconeogenesis & Glycolysis
  • Interaction between DNA, RNA and Protein
  • Metabolism of biomolecules
  • Microarrays
  • Molecular Cloning
  • Nucleic Acids
  • Plant Biochemistry
  • Polymerase Chain Reaction
  • Techniques of molecular biology

 

Track 12 Instrumentation and Techniques: Instrumentation is the development or use of measurement tools for the observation, monitoring or control of chemical processes. Research in this area ranges from development of new instruments to novel applications of existing instruments for understanding complex physical and chemical processes. Chemistry students routinely use sophisticated instrumentation, including a Bruker multinuclear 400 MHz nuclear magnetic resonance spectrometer, a Varian Vista MPX inductively coupled plasma (ICP) spectrometer, and an IonSpec HiRes Matrix Assisted Laser Desorption/Ionization (MALDI)-Fourier Mass Spectrometer (FTMS). The MALDI- FTMS is the only instrument of its kind at an undergraduate institution. Other departmental resources include a Biotage Flash Purification System, facilities for time-resolved luminescence and low temperature (4.2 K-room temperature) optical spectroscopy and a Vacuum Atmospheres inert-atmosphere workstation with an integrated gas purification system.
Sub-topics:

  • Spectroscopy
  • Separation Techniques and HPLC-High Performance Liquid Chromatography
  • X-Ray Crystallography
  • Electrochemical analysis
  • Hybrid techniques
  • Microscopy

Scientific Board

Please hover on the image to view more details.

Christopher Barile
University of Nevada, USA
Christopher Barile
Agnese Magnani
University of Siena, Italy
Agnese Magnani

Registration

Standard Registration on/before
August 20, 2018

Speaker Registration

Early Bird

$799

Per Person
  • Access to all sessions
  • Handbook & Conference kit
  • Lunch & Coffee Break during the conference
  • Certificate of Presentation
  •  

Delegate Registration

Early Bird

$899

Per Person
  • Access to all Sessions
  • Handbook & Conference kit
  • Lunch & Coffee Break during the conference
  •  
  •  

Student/Poster

Early Bird

$350

Per Person
  • Access to all sessions
  • Handbook & conference kit
  • Lunch & Coffee Break during the conference
  • Poster presentation
  •  

Media Partners

About Venue

Las Vegas is the most populous city in the U.S. state of Nevada and the county seat of Clark County. Las Vegas is an internationally renowned major resort city known primarily for gambling, shopping, fine dining, and nightlife and is the leading financial and cultural center for Southern Nevada. A growing retirement and family city, Las Vegas is the 31st-most populous city in the United States, with a population at the 2010 census of 583,756. The city is one of the top three leading destinations in the United States for conventions, business and meetings. Today, Las Vegas is one of the top tourist destinations in the world. The city's tolerance for various forms of adult entertainment earned it the title of Sin City, and this image has made Las Vegas a popular setting for films and television programs. There are numerous outdoor lighting displays on Fremont Street, as well as elsewhere in the city.

Las Vegas is situated within Clark County in an arid basin on the desert floor, surrounded by dry mountains. The Spring Mountains lie to the west. Much of the landscape is rocky and dusty; the environment is dominated by desert vegetation and some wildlife, and the area is subject to torrential flash floods. Within the city there are many lawns, trees, and other greenery. Due to water resource issues, there is now a movement to encourage xeriscapes. Another part of the water conservation efforts include scheduled watering groups for watering residential landscaping. Las Vegas' climate is a subtropical, hot desert climate typical of the Mojave Desert in which it lies. The city enjoys abundant sunshine year-round: it has an average of about 300 sunny days per year with more than 3,800 hours of sunshine.

The city is home to several museums including the Neon Museum home to many of the historical signs from the valley, The Las Vegas Museum of Organized Crime and Law Enforcement, the Las Vegas Natural History Museum, Lied Discovery Children's Museum National Atomic Testing Museum, and the Old Las Vegas Mormon State Historic Park. The climate of Las Vegas is a subtropical. The city enjoys abundant sunshine year-round; it has an average of about 310 sunny days per year. It is virtually free of tornadoes and ice storms. The summer months of June through September are very hot and mostly dry, with a July daily average temperature of 92.5 °F (33.6 °C), while night time temperatures often remain above 80 °F (27 °C). Las Vegas' winters are short and the season is generally mild. December, the coolest month, averages 47.7 °F (8.7 °C). The mountains surrounding Las Vegas accumulate snow during the winter, but snow is rare in the Las Vegas Valley itself.

Venue Info

Tropicana Las Vegas

Address
3801 S Las Vegas Blvd, Las Vegas, NV 89109, USA

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