Performers / Professionals From Around The Globe

Jonathan W Cooper

National Institutes of Health (NIH)
USA

Tracy Bantegui

Cerahelix Inc
USA

Ruslan Dedishov

SepSolve Analytical
UK

Yi Harvey Huang

University of Edinburgh
UK

Jorge Costa Pereira

University of Coimbra
Portugal

Dietmar Schwahn

Technical University of Munich
Germany

Milos Netopilik

Institute of Macromolecular Chemistry
Czech Republic

Maria Ramos Payan

University of Sevilla
Spain

Artem V Pripakhaylo

Russian Academy of Sciences
Russia

Olga A Dalnova

National University of Science and Technology
Russia

Vasilina V Eskina

National University of Science and Technology
Russia

Axel Vansteene

Pierre and Marie Curie University
France

Tracks & Key Topics

Academic Key Topics

Business Key Topics

About Conference

Euroscicon honored to welcome all the participants for the upcoming CPD accredited “8^thEdition of International Conference and Exhibition on Separation Techniques” to be held from July 29-30, 2019 at Dublin, Ireland. The main goal of this Separation Techniques 2019 conference is to make a breakthrough in the field of separation science by bringing together all the persons related to this sector around the world. So, this international conference is designed in such a way to display their ideas, theories, analyses, innovations through Keynote presentations, Oral Talks, Poster presentations, Yonug Research Forum, Symposiums, Workshops, and Exhibitions.

The theme of this conference is "Exploring new trends in Separation Techniques and its related fields" which will provide an international platform for the discussion of current trends in separation techniques. This event gathers all the eminent persons, professors, professionals, students, and industrialists all over the world to exchange their ideas, researches and to exhibit their novel instruments. This conference also provides a podium to exhibit the brand-new equipment relate to separation techniques for the industries and companies in which they can be benefited in the global market moreover they can upgrade their product value.
Separation Techniques 2019 provides an opportunity to discuss and learn about the innovative ideas and technologies inherited in various fields like Analytical chemistry, Biochemistry, Instrumentation, chemistry, Nanotechnology, Geochemistry,
Pharmaceutical chemistry, Membrane science, Organic Chemistry, Desalination, Water Treatment as well as about the novel technologies in separation science, chromatography, spectroscopy, mass spectrometry, hyphenated techniques along with the investigations conducted with these techniques.

Separation Techniques are those techniques that can be used to separate two different states of matter such as liquid and solid. Such separation techniques include filtration or evaporation. Separation process, or a separation method, or simply a separation, is a methodology to attain any mass transfer phenomenon that converts a mixture of substances into two or more distinct product mixtures.Seperation Techniques are essential unit operation in the greater part of the current compound, pharmaceutical and different process plants. There are numerous standard and traditional partition methods accessible in the market and these strategies are very normal and the pertinent advances and also all around created and all around contemplated. Then again, more current partition forms, similar to, layer based procedures, chromatographic division, super basic liquid extraction, and so forth., are picking up significance in present days plants.

Why to attend our conference

This event will provide an opportunity to build and expand your network with various people and gives chance to make collaboration with other universities and research labs. It also helps you to meet the experts in the relevant field of study. It gives the access to novel instruments in the market. This conference plays a major role in your business development and maximizes the profit.

Target Audience

Separation Techniques 2019 keenly focuses on the following people

Eminent Scientists who work with separation instruments
Directors / Head of Analytical chemistry
Principal Investigators, Research lab Scientists, Research Scholars
Professors & Associate Professors of Analytical / organic / Geochemistry / Refining Chemistry
Directors/ Scientists of Analytical Instruments companies
Experts in Chromatography, Mass Spectrometer, Spectroscopy, NMR etc.
Theoretical Scientists working on deriving analytical hypotheses
Experts from Pharmaceutical, Chemical Industries
Industrial Experts related to Separation Instruments.
Research lab scientists, scholars working with separation Instruments.
Relevant Post-graduates, Graduates, Technicians, Students.

Opportunities for Conference Attendees

For Researchers &Faculty:

Speaker Presentations
Poster Display
Symposium hosting
Workshop organizing

For Universities, Associations & Societies:

Association Partnering
Collaboration proposals
Academic Partnering
Group Participation

For Students & Research Scholars:

Poster Competition (Winner will get Best Poster Award)
Young Researcher Forum (YRF Award to the best presenter)
Student Attendee
Group registrations

For Business Delegates:

Speaker Presentations
Symposium hosting
Book Launch event
Networking opportunities
Audience participation

For Companies:

Exhibitor and Vendor booths
Sponsorships opportunities
Product launch
Workshop organizing
Scientific Partnering
Marketing and Networking with clients

Sessions

Track 1 : Advancements in Separation Techniques

Separation Technique is an approach to achieve any phenomenon that converts a mixture of chemical substance into two or more distinct product mixtures. Separation techniques plays a major role in almost all industrial process and sectors like petroleum, chemical, pharmaceutical, food technology, biotechnology, mining industries, wastewater management. Separation between constituents can be done by the standard and traditional methods like distillation, sedimentation, drying, absorption and adsorption process. Besides these techniques there are many more newer separation process like membrane filtration, chromatography, spectroscopy, extraction, fractionation etc. are gaining our attention in this modern era by accomplishing purified component

Track 2 : Emerging Sample Preparation Process

Many advanced instruments employ different sample preparation techniques and it’s also specific to each instrument. Separation techniques chromatography, centrifugation,
electrophoresis, need samples which suits the instrument. Discussion on this topic gives the clear knowledge about the sample preparation and it can be used effectively for the analysis.

Track 3 :Analytical Chemistry

Analytical chemistry is the study deals with instruments and techniques used to determine the product quality and quantity by absolute identification and separation of the materials. Analytical chemistry is the blend of conventional wet lab chemical methods and modern instrumental methods. Separation methods like extraction, fractionation, distillation involved to analyze the quality of the component.

Track 4 : Bioanalytical Techniques

The main impact of bionalysis in the pharmaceutical industry is to obtain a quantitative measure of the drug and its metabolites. The purpose is to perform the pharmacokinetics, toxicokinetics, bioequivalence and exposure response like pharmacokinetic/pharmacodynamic studies. Various bioanalytical techniques are performed in bioanalytical studies such as hyphenated techniques, chromatographic techniques, and ligand binding assays. This review extensively highlights the role of bioanalytical techniques and hyphenated instruments in assessing the bioanalysis of the drugs. Many scientific endeavors are dependent upon accurate quantification of drugs and endogenous substances in biological samples; the focus of bioanalysis in the pharmaceutical industry is to provide a quantitative measure of the active drug and/or its metabolite(s) for the purpose of pharmacokinetics, toxicokinetics, bioequivalence and exposure–response (pharmacokinetics/pharmacodynamics studies). Bioanalysis also applies to drugs used for illicit purposes, forensic investigations, anti-doping testing in sports, and environmental concerns. Separation process involved between biomolecules like proteins, amino acids, sugars, cells, tissues, Microorganisms which can separated by using various techniques like electrophoresis, Cytometry, Elucidation are dealt under this topic.

Track 5 : Mass Spectrometry

Mass spectrometry is an analytical technique which ionizes molecules and sort those ions based on their mass to charge ratio. Basically, it measures the mass within the sample and used to investigate the structure of materials to attain the quality spectra. Identification of unknown peaks in gas chromatography (GC/MS)-based discovery in order to find the protein metabolomics is challenging, and it remains necessary to permit discovery of novel or unexpected metabolites in the signaling pathways and/or further our understanding of how genotypes relate to phenotypes of that genomic series. It also considered to be important for the protein discovery and further research process. New mass spectrometry (MS) methods, collectively known as data independent analysis and hyper reaction monitoring, have recently emerged. Mass spectrometry is an analytical tool used for measuring the molecular mass of a sample. This track covers different aspects of mass spectrometry in various fields.

Track 6 : Electrophoresis

Electrophoresis is a method for separation and analysis of macromolecules (DNA, RNA and proteins) and their fragments, based on their size and charge. It is used in clinical chemistry to separate proteins by charge and/or size (IEF agarose, essentially size independent) and in biochemistry and molecular biology to separate a mixed population of DNA and RNA fragments by length, to estimate the size of DNA and RNA fragments or to separate proteins by charge

Applications of Electrophoresis:

Estimation of the size of DNA molecules following restriction enzyme digestion, e.g. in restriction mapping of cloned DNA.
Analysis of PCR products, e.g. in molecular genetic diagnosis or genetic fingerprinting
Separation of restricted genomic DNA prior to Southern transfer, or of RNA prior to Northern transfer.

Electrophoresis is used in forensics, molecular biology, genetics, microbiology and biochemistry. The results can be analyzed quantitatively by visualizing the gel with UV light and a gel imaging device. The image is recorded with a computer operated camera, and the intensity of the band or spot of interest is measured and compared against standard or markers loaded on the same gel. The measurement and analysis are mostly done with specialized software. Depending on the type of analysis being performed, other techniques are often implemented in conjunction with the results of gel electrophoresis, providing a wide range of field-specific applications.

Track 7 : Spectroscopic Methods in Separation Techniques

Spectroscopy is the study of communication between particles and electromagnetic radiation where it involves scattering, absorption, reflection or transmission of materials. The intensity of interaction between these materials gives the data about the physical properties of the substance. This track deals with various spectroscopy techniques which act as a basic analysis before separation

Track 8 : Hyphenated Techniques

Hybrid separation techniques or hyphenated techniques is the combination of mass spectrometry and chromatography in which the particles can be detected and then separated accordingly by chromatographic separation technique. The term Hyphenated techniques ranges from the blend of division ID, hyphenated systems, e.g., GC-MS, LC-MS, LC-FTIR, LC-NMR, CE-MS, and so forth. Hyphenated procedures along with chromatographic and ghostly techniques to abuse the benefits of both partition detachment methods. These systems demonstrate specificity and affectability. A Hyphenated system is mix or coupling of two distinctive systematic strategies with the assistance of two legitimate interfaces. Advancements in hybrid separation techniques over the past decade has significant outgrowth which added a new dimension to the separation techniques especially for the analysis of biomaterials.

Track 9 : Chromatography

Chromatography is a science of intermolecular interactions and transport molecules or particles in a system of mutually immiscible phases moving relative to each other leading to the formation of concentration zones of individual components of original mixtures of substances or particles. Chromatography play a major role in Separation Science field where it defines the whole idea of separating molecules & ions based on their charge and weight. Chromatography is a partition method that each scientific expert is familiar with the technique.

Track 10 : Separation Techniques in Organic & Inorganic Chemistry

Organic chemistry is the study deals with physical and chemical nature of organic materials which contains carbon atoms. Supramolecular chemistry is the study focuses on the chemical system rather than molecules. It deals with the molecular assembly where two or more compounds interact with weak electrostatic to strong covalent bonding provided with electronic coupling between molecules. This track deals with the separation techniques involved in organic chemistry

Inorganic analysis is a classification of analytical chemistry which used to find composition of inorganic materials. Detecting and separation of ions from other compounds. Supramolecular chemistry is the study focuses on the chemical system rather than molecules. It deals with the molecular assembly where two or more compounds interact with weak electrostatic to strong covalent bonding provided with electronic coupling between molecules.

Track 11 :Separation Techniques in Environmental Science

Separation and purification techniques is an important aspect in this modern era. It involved in separation and purification of homogenous and heterogenous mixtures to its purest form. Separation is the segregation of different types of solid waste at the location where they are generated (a household or business). The most common reason for separating wastes at the source is for recycling. To reduce the environmental impact of waste disposal, the Environmental Protection Agency (EPA) encourages communities to develop strategies to decrease landfill use and lower the risks and inefficiencies of incineration. Waste reduction and recycling are the most environmentally beneficial methods to manage waste. Increasing concentrations of greenhouse gases (GHG_s) such as CO₂ in the atmosphere is a global warming. Human activities are a major cause of increased CO₂ concentration in the atmosphere, as in recent decades, two-thirds of the greenhouse effect was caused by human activities. Carbon capture and storage (CCS) is a major strategy that can be used to reduce GHG emissions. There has been an accompanying increase in interest in the academic community in environmental issues and research on ways to treat environmental problems. Separations could be used to concentrate contaminants for eventual destruction or immobilization and to remove contaminants and concentrate or purify them to the point where they can be used again and no longer be considered contaminants. Applications of separation methods are expected to increase as efforts are made to reduce waste volumes, reuse contaminants in inlet streams even further, or to remove containments from soils and groundwater. Separation operations are currently important in almost every aspect of waste and environmental treatment. This track deals with techniques involved in separation and purification in various fields like green chemistry, radiology, containments of environment and instrumentation of the technique.

Track 12 : Separation Science in Green Chemistry

Green chemistry, also called sustainable chemistry, is an area of chemistry and chemical engineering focused on the designing of products and processes that minimize the use and generation of hazardous substances.Whereas environmental chemistry focuses on the effects of polluting chemicals on nature, green chemistry focuses on the environmental impact of chemistry, including technological approaches to preventing pollution and reducing consumption of nonrenewable resources. Separation Techniques plays a major role in Green Chemistry by employing various methods like removal, recycle, separating hazardous elements, analysis, operating for the welfare of the society and environment

Track 13 : Polymer & Biopolymer chemistry

Polymer chemistry is a chemistry subdiscipline that deals with the structures, chemical synthesis and properties of polymers, primarily synthetic polymers such as plastics and elastomers. Polymer chemistry is related to the broader field of polymer science, which also encompasses polymer physics and polymer engineering. Biopolymers are polymers produced by living organisms; in other words, they are polymeric biomolecules. Biopolymers contain monomeric units that are covalently bonded to form larger structures. There are three main classes of biopolymers, classified according to the monomeric units used and the structure of the biopolymer formed: polynucleotides (RNA and DNA), which are long polymers composed of 13 or more nucleotide monomers; polypeptides, which are short polymers of amino acids; and polysaccharides, which are often linear bonded polymeric carbohydrate structures. Other examples of biopolymers include rubber, suberin, melanin and lignin.

Research areas

Chemical modification of thermoplastics by reactive extrusion
Recycling of thermoplastics
Filling and reinforcing of thermoplastics
Biodegradable polymer compositions with the use of raw materials of natural origin
Polymer nanocomposites
Modification and processing of engineering polymers, including PPO

Track 14 :Desalination & Water Treatment

Separation Techniques employed to treat and separate impurities of water. Desalination is the proces of that extracts mineral components from saline water. More generally, desalination refers to the removal of salts and minerals from a target substance, as in soil desalination, which is an issue for agriculture.

Track 15 : Pollution & Wastewater Treatment

Pollution is the introduction of contaminants into the natural environment that cause adverse change. Pollution can take the form of chemical substances or energy, such as noise, heat or light. Pollutants, the components of pollution, can be either foreign substances/energies or naturally occurring contaminants. Pollution can be reduced by separating harmful substances from the natural sources like air, water, soil, ocean and these harmful substances can be used for other purposes, it can be recycled and reused. Toxic containments present in air or smoke can be separated by various techniques & equipment like Cyclonic Separation, Scrubber, dust collectors, thermal oxidizers, cyclones, blowers, Vapor recovery systems, Dissolved air flotation, API oil-water separators, Biofilters, Aerated lagoons, Constructed wetlands, Electrostatic precipitators, Wastewater quality indicators, Air Ventilation, Multicyclones, Mist collectors, Bag Filters, Photocatalysis, Catalytic converters and electrostatic precipitators. These harmful substances can be reduced by treatment process like Physicochemical Treatment, Biological Treatment, Activated Carbon Treatment etc. Introduction of Novel Technologies has led a path to reduce and prevent the natural resources being polluted by our social activites. These techniques which they have employed in the Industries sector, Agriculture sector, Urban and Rural areas starts reduce the waste, treating the waste products, recycling the waste products, implementing the water and energy saving practices, implementing Eco-friendly practices etc. By these ideas and technologies we can make our world even more better for our future generation.

Wastewater treatment is a process used to convert wastewater into an effluent (outflowing of water to a receiving body of water) that can be returned to the water cycle with minimal impact on the environment or directly reused. The treatment process takes place in a wastewater treatment plant (WWTP), often referred to as a Water Resource Recovery Facility (WRRF) or a sewage treatment plant. Pollutants in municipal wastewater (households and small industries) are removed or broken down. This session covers all the attributes of Pollution and Wastewater Treatment Process.

Track 16 : Membrane Separation Techniques

Membrane Separation is an innovation which specifically isolates (fractionates) materials by means of pores as well as moment holes in the sub-atomic course of action of a nonstop structure. Layer detachments are characterized by pore size and by the division driving force. Membrane separation is a technique that separate solvent and solute particles with help of semi permeable membranes. Membrane innovation is a non-specific term for various extraordinary, exceptionally trademark partition forms. These procedures are of a similar kind, in light of the fact that in each of them a film is utilized. Membrane films are utilized frequently for the purification of groundwater, surface-water, and wastewater. Recent advances in membrane separation technology attained a new dimension in this era.

Track 17 : Separation Techniques in Clinical / Pharmaceutical Chemistry

Innovations in separation science for improved sensitivity and cost-efficiency, increased speed, higher sample throughput and lower solvent consumption in the assessment, evaluation, and validation of emerging drug compounds. It investigates breakthroughs in sample pretreatment, HPLC, mass spectrometry, capillary electrophoresis and therapeutic drug monitoring for improved productivity, precision, and safety in clinical chemistry, biomedical analysis, and forensic research. The most common instrumental chromatographic method used in the clinical laboratory is the gas-liquid chromatography. Separation Techniques in Clinical Chemistry is a thorough single-source guide for analytical, organic, pharmaceutical, medicinal, physical, surface, and colloid chemists and biochemists; and upper-level undergraduate and graduate students in these disciplines. Four detection methods commonly used with gas chromatography are thermal conductivity, flame ionization, nitrogen/phosphorous, and mass spectrometry. The thermal conductivity detector takes advantage of variations in thermal conductivity between the carrier gas and the gas being measured. Advances in Chromatographic Techniques for Therapeutic Drug Monitoring is a comprehensive reference describing the theory and application of therapeutic drug monitoring in clinical laboratories. The technological innovations in clinical chemistry analyzers have led to early disease detection and specialized diagnosis in the areas of oncology, gynecology, & endocrinology and enabled testing on a larger scale. The advancements comprise advanced modeling & parameter estimation, better resolution, improved pattern recognition, computer-assisted interpretation, and artificial intelligence. This Track confers about the information about the separations in clinical chemistry.

Track 18 : Separation Techniques in Chemical Engineering & Nanotechnology

In chemical engineering sector separation process is the transfer of mass substance into two or more distinctive mixtures. This separation process proceeded based on their differences in chemical properties or chemical properties such as size, shape, mass, density or chemical affinity, between the constituents of mixtures. The separation process in chemical engineering is comprised of absorption, adsorption, flotation, fractionation, precipitation, magnetic separation, crystallization, electrochemical separation, drying etc. And Nanotechnology is the emerging field that deals with Nano particles this track confers the information about the separation techniques used in nanotechnology. It is a branch of science that exploring the new dimension in the Nano level which leads into the discovery of new drugs, treatments, user friendly equipment, technologies, etc. This generation is now focusing on the Nano & Pico level experiments & technologies which leads to newer version of science.

Track 19 :Industrial Separation & Chemical Separation Technologies

This track covers all the key areas in Separation Science of Industries that includes, Adsorption, Absorption, Centrifugation, Extraction, Crystallization, Evaporation, Magnetic Separations, Electrostatic Separation, Crystallization, Distillation, Flotation, microfiltration, Flocculation, Filtration membrane processes, Fractional distillation, Precipitation, Sublimation, Vapor-liquid separation, Sedimentation, Gravity separation, Electrophoresis, Ultrafiltration, Chemical Separations, Compound Separations, Chromatography, cyclonic separation, Froth flotation, Reverse osmosis, dialysis (biochemistry), Desalination, Wastewater Treatment etc. which are developing in a rapid speed to make a betterment of Analytical Science.

Track 20 : Market analysis of Separation Techniques & Instrumentation

The Seperation Techniques industry is indicating development quickly, with esteem anticipated that would hit 300 billion dollars by 2018, up from 164 billion dollars in the year 2010, stamping yearly development of about 7%, as per a current modern research report. Geologically, worldwide detachment innovations advertise has been portioned into four zones to be specific, North America, Europe, Asia-Pacific and Rest of the World. Separation techniques industry which is comprised of several equipment like chromatography, Mass spectrometry, electrophoresis, Spectroscopy, NMR, is one of the emerging field which shows the greater impact in the market.

Separation instruments like fractional tapping chromatography, spectrometry, NMR analysis for the separation natural compounds are developing with automated, less time consuming, error free and with a user free fabrication. Equipment productions and their Instrumentation also plays a vital role in this Separation Science as everything is based on these instrument criteria. Advanced ideas like instruments in a chip i.e. lab in a chip (micro fabricated devices) with MEMS technology instruments which are developed with such innovative ideas can be displayed in this discussion.

Track 21 : Applications of Separation Techniques

Separation Techniques plays a major role in all aspects of our daily life products it became a part and parcel of our environment. Raw materials which is of different forms and phases but can be separated to its purest constituent. The importance of separation techniques of different fields like biotechnology, forensic studies, food technology, pharmaceutical industry, petroleum industries.

Market Analysis

Separation Techniques are used to separate particles of different or same phases. Techniques inherited to attain the separation phenomena of two or more distinct products from the mixture of substances. This separation process can be done with the help of techniques like chromatography, electrophoresis, mass spectrometry, spectroscopy, membrane separation, etc. The market analysis of separation technologies can be described as follows.

The global Membrane separation technology market is projected to reach USD 28.10 Billion by 2022 at a CAGR of 7.2%. The base year considered for the study is 2016 while the forecast period is from 2017 to 2022. Membrane separation technology is used to separate and purify a specific component from the rest of the mixture. This technology is widely used for commercial and industrial purposes. Certain properties of membrane separation technology, such as durability, porosity, permeability, stability, and selectivity, make it indispensable in various industrial applications. The membrane separation technology is widely used in water & wastewater treatment, industrial, laboratory, medical, food & beverages, and research applications to purify, concentrate, sterilize, or separate samples.

The global chromatography instruments market is projected to be valued at USD 7.86 Billion in 2017 and is expected to grow at a CAGR of 6.9% to reach to USD 10.99 Billion by 2022. The growth of the overall chromatography instruments market can be attributed to the rising food safety concerns, increasing use of chromatography tests in the drug approval process, and growing popularity of hyphenated chromatography techniques.

Mass spectrometry is an analytical technique used to identify compounds present in a sample by measuring the mass-to-charge ratio. The market is segmented based on platform and application. The mass spectrometry market, by platform, is segmented into hybrid mass spectrometry, single mass spectrometry, and other mass spectrometry. The mass spectrometry market is expected to reach USD 7,279.1 Million in 2020 from USD 4,919.1 Million in 2015 at a CAGR of 8.1%.

The process spectroscopy market is expected to grow to USD 22.04 Billion by 2020, at a CAGR of 8.72% between 2015 and 2020 and the global molecular spectroscopy market is projected to be valued at USD 4.68 Billion in 2017 and is expected to grow at a CAGR of 6.6% to reach to USD 6.85 Billion by 2022. The growth of the overall molecular spectroscopy market can be attributed to the growing food safety concerns, the growth of the pharmaceutical and biotechnology industry, application of molecular spectroscopy in environmental screening and technological advancements in molecular spectroscopy.

The global electrophoresis market is expected to reach USD 2.15 Billion in 2017, growing at a CAGR of 5.4% during the forecast period. Several factors, such as the growth in funding for research on electrophoresis techniques, increasing the number of research collaborations between market players and academic institutions, increasing use of capillary electrophoresis (CE) with mass spectroscopy (MS), and growing focus on next-generation sequencing research are driving the growth of the electrophoresis market. The base year considered for the study is 2016 and the forecast period includes 2017 to 2022. The future growth prospects for the protein crystallization market are optimistic which is estimated to grow at a CAGR of 10.1% to reach a worldwide market of $1,253 million by 2018

The global process analyzers (liquid & gas) market is expected to grow to USD 4.98 Billion by 2020, at an estimated CAGR of 5.50% between 2015 and 2020. This market is driven by the increase in the shale gas production in the U.S. In addition, the gas chromatography market is projected to reach USD 3.90 Billion by 2020, at a CAGR of 8.60% between 2015 and 2020.

The global gas separation membranes market is projected to reach USD 2.61 Billion by 2022 at a CAGR of 7.2% forecast period. The base year considered for the study is 2016 while the forecast period is from 2017 to 2022.

The global air separation plant market is projected to reach USD 7.27 Billion by 2026, at a CAGR of 5.3% from 2016 to 2026. The market is expected to witness growth in the coming years owing to the increasing demand for iron & steel around the world, coupled with stringent policies and measures taken by countries to promote the safe use of air separation methods for industrial applications.

The global analytical standards market is projected to reach USD 1.73 Billion by 2022 from USD 1.27 Billion in 2017, at a CAGR of 6.3%. And the global analytical laboratory services market, by public health organization, is projected to reach USD 333.8 Million by 2021 from USD 202.8 Million in 2016, at a CAGR of around 10.5% during the forecast period. The overall market, by public health organization, is positively impacted by factors such as the growing expenditure on drugs and medical devices by public health organizations, government initiatives to strengthen analytical testing capabilities, increasing number of drug approvals & clinical trials, and rising demand for specialized analytical testing services.

The global healthcare analytical testing services market is estimated to grow at a CAGR of 11.3% from 2017 to 2021 to reach USD 4.13 Billion by 2021. The growing demand for analytical services for biologics and large-molecule drugs, increasing outsourcing of analytical testing by pharmaceutical companies, rising demand from the nutraceutical industry and increasing acceptance of the QbD (Quality by Design) approach in pharma research/manufacturing are the major factors driving the growth of the global market.

Highlights & Benefits

Keynote Sessions on Separation Techniques
Oral presentations on Separation Techniques
Young Researcher Forums
Poster Presentations on Separation Techniques
Video Presentations on Separation Techniques
E-poster Presentations on Separation Techniques
Honorable Guests Presentations
Exhibitions on Separation Techniques
Free Abstract Publication & DOI
Free Lunch and Networking
Questionnaires on Separation Techniques
International Workshops and Symposia on latest trends
Top Industries & Organization Representation from all over the world

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Separation Techniques Societies:

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Past Conference Report

Thanks for participating in Separation Techniques 2018

Separation Techniques 2018

The 7^th Edition of International Conference on Separation Techniques was held on July 5-7, 2018 in Berlin, Germany with the presence of professional researchers, business delegates, scientists involved in the development of high-quality education & research in all aspects. Please check the website: Separation Techniques 2018 Conference Photographs

Separation Techniques 2018 witnessed an amalgamation of peerless speakers who enlightened the crowd with their knowledge and confabulated on various topics related to the field of Separation Techniques. The highly exalted conference hosted by EuroSciCon was marked with the attendance of renowned and brilliant researchers, business delegates and talented student communities representing more than 30 countries around the world. The conference has tried grounding every aspect related to Separation Techniques, covering all the possible research areas.

The conference aimed a parallel rail with theme “Launching the Innovative Ideas and Technologies of Separation Techniques”. The meeting engrossed a vicinity of cognizant discussions on Recent Developments in Separation Techniques, Recent Upgrades in Sample Preparation Process, Chromatography, Desalination & Wastewater Treatment Techniques, Separation Techniques in Environmental Chemistry, Analytical Chemistry, Mass Spectrometry, Spectroscopic Methods in Separation Techniques, Separation Techniques and Applications, Membrane Separation Techniques, Separation Techniques in Clinical/Pharmaceutical Chemistry, Separation Techniques in Chemical Engineering, New Instrumentation and Multidimensional Separations, Separation Techniques in Organic Chemistry, Separation Techniques used in Nanotechnology. The three days event implanted a firm relation of upcoming strategies in the field of Separation Techniques with the scientific community. The conceptual and applicable knowledge shared, will also foster organizational collaborations to nurture scientific accelerations.

We are thankful to all our speakers for encouraging and supporting us to conduct the conference and catapulting the same to pinnacle of success.

We would like to thank our Organizing Committee Members Dr. Martin Schimpf, Boise State University, USA, Dr. Fawzi Banat, Khalifa University, UAE & Dr. Mustafa Tuzen, Gaziosmanpasa University, Turkey for their support throughout the conference without your cooperation which lead us to the grand success of Separation Techniques 2018 Conference

The Organizing Committee would like to thank the moderator: Dr. Simona Lavric, Melamin d.d. Kocevje, Slovenia for his valuable contribution which resulted in smooth functioning of the conference.

We would also like to thank our Poster judge Dr. Zhang Jinlan, Institute of Materia Medica CAMS & PUMC, China for the evaluation of Poster Presentations.

The meeting was embarked with an opening ceremony followed by Keynote Sessions and followed by series of lectures delivered by Honorable Guests and members of the Keynote forum. The highlights of the meeting were the eponymous lectures, delivered by:

Jonathan W Cooper, National Institute of Health, USA

Jun Zhang, Harbin Institute of Technology, China

Tracy Bantegui, Cerahelix Inc, USA

Fawzi Banat, Khalifa University, UAE

Miloš Netopilík, Institute of Macromolecular Chemistry AS CR, Czech Republic

Xindu Geng, Institute of Modern Separation of Science Northwest University, China

Dietmar Schwahn, Technische Universität München, Germany

Olga A Dalnova, National University of Science and Technology MISiS, Russia

Vasilina V Eskina, National University of Science and Technology MISiS, Russia

Zhang Jinlan, Institute of Materia Medica CAMS & PUMC, China

Su Xu, National Tsing Hua University, Taiwan

Mustafa Tuzen, Gaziosmanpasa University, Turkey

Yoram Oren, Ben-Gurion University of the Negev, Israel

Axel Vansteene, Université Pierre et Marie Curie, France

María Ramos Payán, University of Sevilla, Spain

Saoussen Hammami, Monastir University, Tunisia

Junsheng Yuan, Hebei University of Technology, China

Yingying Zhao, Hebei University of Technology, China

Devender Thayar Seshadri, Indofil Industries Limited, India

Narendra Hanumanta Petha, Indofil Industries Limited, India

Poster competition also held for the young scientists and the best poster presenter has been awarded by the Dr. Zhang Jinlan, Institute of Materia Medica CAMS & PUMC, China.

Separation Techniques 2018 had a effective networking session which enables the professionals and scientists to get involved & enlightened them in all perspectives. We also like to thank all the delegate professionals from various countries like Slovenia, Saudi Arabia, China, South Korea, Qatar, Slovakia who attended the conference shared their industrials experiences in networking sessions. Please check the website: Separation Techniques 2018 Conference Photographs to visualize the conference photographs

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EuroSciCon is prerogative to thank the Organizing Committee Members, Keynote speakers and Chairs on transcribing the plenary sessions in a diversified and variegate manner to make this conference an enviable artifact.

Separation Techniques 2018 would not have reached the pinnacle if not with the support of International, multi-professional steering committee and coordination of Insights in Archives in Chemical Research, Der Chemica Sinica, International Journal of Drug Development and Research.