Market Analysis - Physical Chemistry 2017
Importance and scope of Physical Chemistry
Physical chemistry is the study of how matter comports on a molecular and atomic level and how chemical reactions occur. Physical chemistry blends the principles of physics and chemistry to study the physical characteristics, or properties, of molecules. By understanding these properties, you learn more about the way in which molecules are put together, as well as how the genuine structure of a chemical is impacted by these properties. Within the field of physical chemistry, we can investigate how molecules or atoms coalesce to compose particular molecules. We can additionally learn about the distinct properties of matter, such as why a compound burns or about its ability to convert from a liquid to solid substance. Indubitably, this field is very paramount in the world of science, especially as it paves the way for the revelation of incipient theories.
Based on chemical reaction analyses, physical chemists may develop incipient theories, such as how complex structures are composed. Physical chemists often work proximately with materials scientists to research and develop potential uses for incipient materials. Many people trained as physical chemists ultimately work as analytical chemists, where they work to understand the fundamental procedure involved in analytical techniques, sanctioning them to enhance and expand those techniques.
Physical chemists are fixated on understanding the physical properties of atoms and molecules, the way chemical reactions work, and what these properties disclose. Their work involves analysing materials, developing methods to test and characterize the properties of materials, advancing theories about these properties, and discovering the potential utilization of the materials. Utilizing sophisticated instrumentation and equipment has always been a paramount aspect of physical chemistry. Most physical chemistry labs are plenary of analytical instruments, which can include lasers, mass spectrometers, nuclear magnetic resonance, and electron microscopes.
Dublin is the capital and most astronomically immense city of Ireland. Dublin is in the province of Leinster on Ireland's east coast, at the entrance of the River Liffey. The city has an urban area population of 1,345,402. The population of the more preponderant Dublin Area, as of 2016, was 1,904,806 people. Dublin is administered by a City Council. The city is registered by the Globalization and World Cities Research Network (GaWC) as a global city, with a ranking of "Alpha-", positioning it among the top thirty cities in the world. It is a historical and contemporary centre for edification, the arts, administration, economy and industry. The Dublin region is the economic centre of Ireland, and was at the front line of the country's rapid economic expansion during the Celtic Tiger period. In 2009, Dublin was listed as the fourth wealthiest city in the world by purchasing power and 10th richest by personal income. Economic amendments in the 1990s have magnetized a sizably voluminous number of ecumenical pharmaceutical, information and communications technology companies to the city and more preponderant Dublin Area. A 2005 study by The Economist found Ireland to have the prime quality of life in the world. The 1995 to 2007 period of very high economic magnification, with a record of posting the highest magnification rates in Europe, led many to call the country the Celtic Tiger. One of the keys to this economic magnification was a low corporation tax, currently at 12.5% standard rate.
Why to Attend
With members from around the world focused on learning about Physical chemistry, Thermodynamics, Chemical Kinetics, Femtochemistry, Polymer Chemistry, this is your one of the best opportunity to reach the largest assemblage of participants. Conduct presentations, disperse information, knowledge to meet with current and potential speakers, make a sensation with a new product line, and receive name recognition at this 2-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in fields are hallmarks of this conference.
General Physical Chemistry
Physical Chemistry of Macromolecules
Universities associated with Physical Chemistry
Major universities in Ireland
Dublin City University
National University of Ireland
University of Dublin
University of Limerick
Major universities around the world
University of California—Berkeley
California Institute of Technology
Massachusetts Institute of Technology
University of Mons
North-Eastern Federal University in Yakutsk
Societies associated with Physical Chemistry
Royal Society of Chemistry
Society of Physical Chemists of Serbia
Asian Chemical Editorial Society
German Bunsen Society for Physical Chemistry
Institute of Chemistry of Ireland
Korean Physical Society
The Danish Chemical Society
Swiss Chemical Society
Polskie Towarzystwo Chemiczne
Members associated with Physical Chemistry
Eminent people around the world
Mario Molina, Nobel Laureate
Richard R. Ernst, Nobel Laureate
Mostafa El-Sayed, US National Medal of Science laureate
Gerhard Ertl, Nobel Laureate
Benjamin S. Hsiao, Chief Research Officer at Stony Brook University
Global market value on Physical Chemistry
The global chemical industry is estimated to be US $2.4 trillion dollars contributing significantly in the market growth of US, Europe, and Middle East Countries. The demand for chemical products is highest in the Asia, Japan and Korea. The annual US chemical output alone is US $750 billion dollars. The global chemical industry market is expected to grow at a CAGR of 3.7% by 2020.
According to American Chemistry Council, the global chemicals industry breached the US$5 trillion sales mark in 2013. According to the U.S. Bureau of Labor Statistics, chemists and material scientists can expect their field to grow slower than average through 2020. Growth markets such as China, Brazil, and India stimulate demand for basic chemicals whereas in developed regions, chemicals formulated for specialized applications will see a progressive rise in demand. The cellulose ether & derivatives market is projected to be worth USD 6.30 Billion, by 2020, registering a CAGR of 7.2% between 2015 and 2020. The global carbon nanotubes market size (2015–2020) is estimated to reach USD 5.64 Billion by 2020 at a CAGR of 20.1%. The market size of amines is estimated to grow from USD 13.35 Billion in 2015 to USD 19.90 Billion by 2020.
Market outlook of physical chemistry laboratory analytical instruments (UV/Visible Spectroscopy, Mass spectrometry, Air Quality Monitoring Equipment’s, Particle Size Analysis Instruments, Atomic Spectroscopy)
The UV/visible spectroscopy market is assured to reach USD 1,163.2 Million by 2021, growing at a CAGR of 4.3 % during the estimate period of 2016 to 2021. The growth of the market can be attributed to application of UV/visible spectroscopy in environmental testing; growing utilization in the pharmaceuticals and biotechnology industries; technological advancements in instrumentation; and increasing requirement for food analysis.
The global air quality monitoring market (AQM) for environmental protection is estimated to reach USD 5.64 Billion by 2021, at a CAGR of 8.5% in the forecast period. The existence of supportive government regulations for effective air pollution monitoring and control, on-going government capabilities towards the development of environment-friendly industries, increasing public-private funding for productive air pollution monitoring, rising global levels of air pollution, and increasing public awareness corresponding to healthcare and the environmental indications of air pollution are some key factors fuelling the growth of the market.
This report studies the ecumenical particle size analysis market over the forecast period of 2016 to 2021. The market is expected to reach USD 256.1 Million by 2021, at CAGR of 4.7% from 2016 to 2021. Incrementing nanotechnology research, presence of stringent regulatory guidelines to ascertain compliance with GMP guidelines, and growing efforts by players to expand their geographic presence are driving the magnification of the particle size analysis market during the forecast period.
The atomic spectroscopy market is assured to reach USD 5.60 Billion by 2020, growing at a CAGR of 6.0% during the forecast period of 2015 to 2020. The magnification of the overall market can be contributed to elevating investments, mazuma, and grants by regime bodies ecumenical and technological advancements.
Over the years, the mass spectrometry market, has noticed sundry technological advancements. This market is expected to reach USD 7,279.1 Million by 2020 from USD 4,919.9 in 2015 at a CAGR of 8.1% during the forecast period. These advancements have led to a magnification in the number of mass spectrometry applications.
Competitive landscape and key vendors of physical chemistry instruments
The ecumenical laboratory analytical instrumentation market is dominated by international vendors. These vendors give offerings in all categories, whereas sources that specialize in a particular segment of analytical instruments have a much lower market share.
Leading vendors in the market are, Agilent, Bruker, HORIBA, Danaher, Thermo Fischer. Other vendors in the market include ABB, B&W Tek, Hitachi, Illumina, JASCO, PerkinElmer, Siemens, and Waters.
Physical Chemistry 2017 which is going to be held during September 18-19, 2017 in Dublin, Ireland aims to gather academia and business research people at the same platform to explore the theme as "A Meeting at the Interface on Theory and Experiment".
Physical Chemistry is the application of physical principles and measurements to understand the properties of matter, as well as for the development of new technologies for the environment, energy and medicine. Advanced physical chemistry topics include different spectroscopy methods (raman, ultrafast and mass spectroscopy, nuclear magnetic and electron paramagnetic resonance, statistical mechanics, x-ray absorption and atomic force microscopy) as well as theoretical and computational tools to provide atomic-level understanding for applications such as: nanodevices for bio-detection and receptors, interfacial chemistry of catalysis and implants, electron and proton transfer, protein function, photosynthesis and airborne particles in the atmosphere.
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