Chemistry Conference 2017 Organizing Committee proudly announces and invites all the participants across the globe to attend the “International Conference on Chemistry” slated on October 02-04, 2017 at Las Vegas, USA.
In the light of this theme, the Chemistry conferences aims to provide a forum for international researchers from various areas of Chemistry, Pharmacy, Life sciences and allied groups by providing a platform for critical analysis of new data, and to share latest cutting-edge research findings and results about all aspects regarding advances in various branches of Chemistry.
Chemistry volumes continue to rise in the U.S. and chemical
market expected to contract this year— will expand 2.7% this year, 4.1% in 2017
and 5.0% in 2018. Growth in production volumes will accelerate and the industry
will expand 3.7% in 2017 and by another 4.5% in 2018. As a result, chemical
industry capital spending in the U.S. surged 12.1% in 2014 and gained 21.0% in
2015, reaching $43.58 billion. American chemistry revenues will exceed $1.0
trillion by 2020. Over 260 new chemical production projects (valued at over
$161 billion) have been announced. By 2021, U.S. capital spending by the
chemical industry will reach $65 billion—more than triple the level of spending
at the start of this prolonged cycle in 2010. The trade surplus in chemicals
(excluding pharmaceuticals) will grow to $36 billion this year as exports rise
by 2% to $132 billion and imports hold steady at $96 billion. Two-way trade
between the U.S. and its foreign partners will reach $227 billion this year and
will grow steadily over the coming years.
- 200+ Participation (70 Industry: 30 Academia)
- 5+ Keynote Speakers
- 50+ Plenary Speakers
- 10+ Exhibitors
- 12 Innovative Educational Sessions
- 5+ Workshops
- B2B Meetings
On behalf of Chemistry 2017 organizing committee, Allied Academies invites Chemistry and Life Science expertise, researchers, professors, scientific communities, delegates, students, business professionals and executives to attend the “International Conference on Chemistry” which is to be held during October 02-04, 2017 at Las Vegas, USA
Track 1: Fundamentals of Chemistry
Fundamentals of chemistry is basically the base or the building bricks for chemistry, the fundamentals include everything starting from Chemical bonding, Chemical reactions, states and matters, Stoichiometry, Balancing chemical equations, Acids and bases, Oxidation and Reduction reactions to the conceptual coverage of the influence of chemistry in between physics and biology.
In order to learn chemistry, fundamentals are the base of the knowledge which covers numerous theories and laws like Lamm equation, Le Chatelier’s principle and Van Der Waal’s equation.
Track 2: Analytical Chemistry
Analytical chemistry is the branch of chemistry that deals with the obtaining, processing and communicating about the structure and composition of a matter.
Analytical chemistry is also the science used for determining the amount of matter present along with the determination for the presence of that matter. Analytical methods and techniques are increasing sophistically leading to improvement as well as specializing particular kinds or classes of compounds as well.
Track 3: Organic Chemistry
Organic Chemistry is the segment of science that concerns over the compounds that contain carbons. The use of this branch of science is vast comprising of daily use as well as for pharmaceutical use and laboratory uses.
Track 4: Inorganic Chemistry
Inorganic chemistry is nothing but the branch of science that covers the compounds that are left uncovered by Organic chemistry. It includes the compounds that do not have any carbon-hydrogen bond also known as organometallic compounds.
Organometallic compounds tend to have a very high melting point and also a very good conductive property, due to these properties they are of a very high demand for use in industries. Polyvinyl chloride made from chlorine is used to make pipes and furniture. Other uses of organometallic compounds ranges from making of microchip and explosives to agrochemicals like fertilizers and pesticides.
Track 5: Medicinal Chemistry
Pharmaceutical chemistry in other words is known as Medicinal chemistry which deals with the structural study of compounds as well as their synthesis which in turn helps to find new drugs and design newer drugs for cures to diseases.
Medicinal chemistry is one of the most important and key subject to any Industry for the development of drugs and drug designing.
The study of synthesis of drugs and SAR (Structure Activity Relationship) is a key factor in any laboratory and scientific work for it can help in developing and modifying drugs.
Track 6: Polymer Chemistry
Polymer chemistry deals with the study of bigger molecules that are built from smaller molecules by Polymerization. Polymerization is the process of where the monomers combine to create a big block called polymer.
Polymer chemistry deals with the structures mainly and also with chemical synthesis and properties of polymers such as plastics and elastomers. There are many theories to explain the structures of macromolecules related to polymer include Scheutjens-Fleer theory, Flory-Huggins solution theory, Cossee-Arlman mechanism, Polymer field theory and Hoffman Nucleation theory.
Track 7: Crystal Chemistry
Crystal chemistry is one of the fundamental parts of science of mineralogy as well as to material science and solid-state chemistry; it describes the relationships of the mineral crystals with its physical and chemical properties.
The basic principle of crystal chemistry is based on the concept of periodic structures containing specific number of ions, coordination number and charge. If the coordination by anions of the cations are defined in that case the coordination by cations of anions are fixed.
Track 8: Crystal Chemistry
Nuclear chemistry is the field of chemistry that deals with radioactivity which is a result of a natural change of an isotope of one element into an isotope of different element and nuclear processes. There are basically three types of radiation and nuclear changes- Alpha Radiation, Beta Radiation and Gamma Radiation.
While radioactivity goes decay naturally, nuclear reactions occur in two types- Nuclear Fission and Nuclear Fusion. Nuclear fusion tends to release tremendous amount of energy and thus also called as thermonuclear reaction. The use of nuclear chemistry is increasing drastically over time like providing world electricity, a very important factor for pharmaceutical industries, food and agriculture, medical and also commercial purpose.
Track 9: Physical Chemistry
Physical chemistry is the branch of science that deals with the study of macroscopic and particulate phenomenon, in contrast to chemical physics it is predominantly a macroscopic or super-ultra science. It also deals with the behavior of matter on a molecular and atomic level and how chemical reactions occur.
The area of use for physical chemistry is wide, as the main goal remains to discover, test and understand fundamental physical characteristics of a material be it solid, liquid or gas. Renowned industries depend on physical chemistry for most of their working like GlaxoSmithKline, Ford, Qualcomm and fitbit.
Track 10: Pharmaceutical Chemistry
Pharmaceutical chemistry is the same as Medicinal chemistry, they provide the guidelines at the junction of chemistry. Pharmaceutical chemistry includes designing of drug, chemical synthesis and development for market of pharmaceutical agents.
Pharmaceutical chemistry has evolved rapidly over years providing high ranked career and expertise, the journal showcases milestones in pharmaceuticals R&D and features expert analysis of emerging researchers, identification of targets, drug design, synthesis and evaluation has proved to be a vast field of work exposure.
Track 11: Nanotechnology and Applications
Nanotechnology is the biggest of applications that has been put to use after 2000s, it is one of the major technology by which numerous diseases are treated and also prevented in the developing countries. Nanotechnology is defined as the technology that deals with dimensions and tolerance of less than 100nm, like atoms and molecules.
Nanotechnology has been one of the prior requirements nowadays, it’s area of application is huge like in Nanomedicines, Nanobiotechnology, Green Nanotechnology, Industrial applications, applications for carbon nanotubes, energy and Nano art.
Track 12: Environmental Chemistry
Environmental chemistry or Ecological science is the logical investigation of the synthetic and biochemical wonders that happen in common places. It ought not be mistaken for green science, which looks to decrease potential contamination at its source. It can be characterized as the investigation of the sources, responses, transport, impacts, and destinies of substance species noticeable all around, soil, and water situations; and the impact of human action and natural action on these.
Ecological science includes first seeing how the uncontaminated ecological functions, which chemicals in what fixations are available normally, and with what impacts. Without this it is difficult to precisely concentrate the impacts people have on the earth through the arrival of chemicals.
Track 13: Materials Chemistry
The interdisciplinary field of materials science, likewise ordinarily named materials science and building, includes the revelation and plan of new materials, with an accentuation on solids. The scholarly starting points of materials science originate from the Enlightenment, when scientists started to utilize explanatory deduction from science, physical science, and building to comprehend antiquated, phenomenological perceptions in metallurgy and mineralogy. Materials science still consolidates components of physical science, science, and designing. All things considered, the field was for some time considered by scholarly establishments as a sub-field of these related fields.
Green science, likewise called reasonable science, is a region of science and compound building concentrated on the outlining of items and procedures that minimize the utilization and era of risky substances. Green science covers with all sub disciplines of science yet with a specific concentrate on substance combination, prepare science, and synthetic designing, in mechanical applications.
Paul Anastas and John Warner developed the principles of green chemistry, the principles are- Prevent, Atom Economy, Less Hazardous Chemical Syntheses, Designing Safer Drugs, Designing Safer Chemicals, Safer Solvents and Auxiliaries, Design for Energy Efficiency, Use of Renewable Feedstocks, Reduce Derivatives, Catalysis, Design for Degradation, Real-time Analysis for Pollution Prevention, Inherently safer Chemistry for Accident Prevention.
Track 15: Natural Product Chemistry
Natural product chemistry consists of the compounds produced by any living organisms or the substances produced by the chemical synthesis within the organism. Natural products are proving to be very useful in our day to day life as it is also used for optimization of “chemical warfare” against prey or predators or competing organism.
Natural products are widely used in fields of Biotechnology, Drug discovery, Pharmacognosy, Biochemical pharmacology, Analytical biochemistry, adrenergic drugs and Metabolism.
There are 15 new natural product-derived drugs launched during the years 2000-2003 and 15 more products were on clinical trials. Every natural product is derived on the basis of these contents as follows- Carbohydrates, Lipids, Proteins and Amino Acids and Nucleic Acids.