Analytical Techniques 2019
Euroscicon invites all the participants from all over the world to attend ‘International Conference on Analytical Techniques & Spectroscopy’ during March 4-6, 2019 in Amsterdam, Netherlands which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
What is Analytical Techniques ?
Analytical Techniques are the methods used for the qualitative and quantitative determination of concentration of a compound by using various techniques. The most common techniques used in analytical chemistry are titrations, spectroscopy, chromatography, gravimetric analysis, electro-analytical methods, microscopy and radioanalytical chemistry. Titration is a common laboratory method of quantitative chemical analysis that is used to determine the unknown concentration of an identified analyte.
Electroanalytical methods are a class of techniques in analytical chemistry which study an analyte by measuring the potential (volts) and/or current (amperes) in an electrochemical cell containing the analyte. Chromatography is a laboratory technique for the separation of a mixture. The mixture is dissolved in a fluid called the mobile phase, which carries it through a structure holding another material called the stationary phase. The various constituents of the mixture travel at different speeds, causing them to separate. The separation is based on differential partitioning between the mobile and stationary phases. Chromatography may be preparative or analytical. Gravimetric analysis describes a set of methods used in analytical chemistry for the quantitative determination of an analyte based on its mass. The principle behind this type of analysis is that once an ion's mass has been determined as a unique compound, that known measurement can then be used to determine the same analyte's mass in a mixture, as long as the relative quantities of the other constituents are known. Microscopy is the technical field of using microscopes to view objects and areas of objects that cannot be seen with the naked eye. Radioanalytical chemistry focuses on the analysis of sample for their radionuclide content. Various methods are employed to purify and identify the radioelement of interest through chemical methods and sample measurement technique.
Types of Analytical Techniques:
The majority of Analytical Techniques fall into one to four basic disciplines within the field of analytic chemistry:
- Atomic Absorption
- Mass Spectrometry
- Electro-Analytical Methods
- Gas Chromatography
- Liquid Chromatography
- Thin Layer Chromatography
What is Spectroscopy ?
Spectroscopy is the process where different techniques are employed to obtain data on the structure and properties of matter which is used for solving a wide variety of analytical problems. Spectroscopy is a study of absorption and emission of light and other radiation by matter, as related to the dependence of these processes on the wavelength of the radiation. More recently, the definition has been expanded to include the study of the interactions between particles such as electrons, protons, and ions, as well as their interaction with other particles as a function of their collision energy. Spectroscopic analysis has been crucial in the development of the most fundamental theories in physics including quantum mechanics, the special and general theories of relativity, and quantum electrodynamics. Spectroscopy, as applied to high-energy collisions, has been a key tool in developing the scientific understanding not only of the electromagnetic force but also of the strong and weak nuclear forces. Spectroscopic techniques have been applied in virtually all technical fields of science and technology.
Types of Spectroscopy :
- X-Ray photoelectron spectroscopy (XPS)
- Infrared absorption spectroscopy (IRS)
- Ultraviolet and visible absorption spectroscopy (UV-VIS)
- Nuclear magnetic resonance spectroscopy (NMR)
- Raman Spectroscopy
Analytical Techniques & Spectroscopy 2019 Conference mainly focuses novel approaches to analytical and bio-analytical methods, analytical methodology, bioanalytical methodology, chromatograpic techniques, environmental analytical chemistry, electrophoresis, advancements in mass spectrometry, forensic analysis, advances in separation techniques, analytical biotechnology, pharmaceutical analysis, process analytical chemistry, thermal analysis and glycomics, applications of analytical and bioanalytical methods, new instrumentation and equipment, regulatory issues and biosafety challenges in bioanalysis.
- Spectroscopists, Experts in Analytical Techniques
- Research Heads from Laboratories & Research Centres
- Leads from Pharmacy and Chemical Industries
- Industrial expertise working with various spectrometer
- Marketing teams of Industries with novel products to showcase at the conference
- Directors and Professors from Universities and Institutions
- Post-doctoral and Ph.D. students working on Analytical & Bio-Analytical techniques
- Theoretical scientists working on deriving analytical techniques
- Relevant Graduate and Postgraduate students
About Amsterdam, Netherlands
Amsterdam is the capital and most populous municipality of the Netherlands. The city is located in the province of North Holland in the west of the country but is not its capital, which is Haarlem. The metropolitan area comprises much of the northern part of the Randstad, one of the larger conurbations in Europe, with a population of approximately 7 million. Originating as a small fishing village in the late 12th century, Amsterdam became one of the most important ports in the world during the Dutch Golden Age, a result of its innovative developments in trade. Amsterdam is considered an alpha world city by the Globalization and World Cities (GaWC) study group. The city is also the cultural capital of the Netherlands. Many large Dutch institutions have their headquarters there, and seven of the world's 500 largest companies, including Philips, AkzoNobel, TomTom and ING, are based in the city. Also, many leading technology companies have their European headquarters in Amsterdam, such as Uber, Netflix and Tesla. The 17th-century canals of Amsterdam and the 19th–20th century Defence Line of Amsterdam are on the UNESCO World Heritage List.
Tracks & Sessions
Nanotechnology is the rising field that arrangements with Nano particles this track presents the data about the partition strategies utilized as a part of nanotechnology. It is a branch of science that investigating the new measurement in the Nano level which leads into the revelation of new medications, medicines, easy to use gear, advancements, and so forth. This age is presently concentrating on the Nano and Pico level trials and innovations which prompts more up to date form of science.
- Nanoscale Sensors
- Separation and Purification by Nanoparticles
- Separation in Process Engineering
- Nanostructured Absorbents
Expository methodology fuses fluorescence imaging has been used for the most part in cell science to focus cell structures and techniques, particularly in living cells. Electro Analytical Techniques: Electro scientific strategies offer a novel access to information on compound, biochemical, and physical systems.
- Nanotechnology Applications in Analytical Methods
- HPCL Analytical Method Development and Validation
- Drug Screening
- Fluorescence Techniques
Chromatography is a craft of intermolecular collaborations and transport iotas or particles in a game plan of normally immiscible stages moving in regard to each other provoking the advancement of centre zones of individual fragments of interesting mixes of substances or particles. Chromatography is a section methodology that each sensible ace thinks about the framework.
- Advancements in Chromatographic Techniques
- Ion exchange Chromatography
- Gas Chromatography
- Liquid Chromatography
The change of particles under spatially uniform electric field in a liquid is called electrophoresis. It is caused by a charged interface show up between the molecule surface and the encompassing liquid. The rate of advancement of iota relies upon the idea of the field, on the net charge size and state of the particles and in addition on the ionic quality, consistency and temperature of medium in which the atoms are moving.
- Affinity Electrophoresis
- Gel Electrophoresis
Titration, system of manufactured examination in which the measure of some constituent of an illustration is controlled by adding to the ponder case a correctly known measure of another substance.
- Acid- Base Titration
- Non-aqueous Titration
- Karl Fischer Titration
The focal point of proteomics is an organic gathering called the proteome. The proteome is dynamic, characterized as the arrangement of proteins communicated in a particular cell, given a specific arrangement of conditions. Inside a given human proteome, the quantity of proteins can be as extensive as 2million. Proteins themselves are macromolecules: long chains of amino acids. This amino corrosive chain is built when the cell apparatus of the ribosome deciphers RNA transcripts from DNA in the cell's core. The exchange of data inside cells usually takes after this way, from DNA to RNA to protein.
- Applications of Proteomics
- Modern trends in Proteomics
- Limitations of Proteomics
- Bioinformatics for Proteomics
Crystallography, branch of science that arrangements with recognizing the course of action and holding of molecules in crystalline solids and with the geometric structure of gem grids. Traditionally, the optical properties of precious stones were of incentive in mineralogy and science for the recognizable proof of substances. Present day crystallography is to a great extent in view of the investigation of the diffraction of X-beams by precious stones going about as optical gratings. Utilizing X-beam crystallography, scientific experts can decide the inner structures and holding courses of action of minerals and particles, including the structures of vast complex atoms, for example, proteins and DNA.
- Molecular Modelling
- Crystal Optics
- Powder Diffraction
Film Separation is an advancement which particularly secludes (fractionates) materials by methods for pores and in addition minute gaps in the sub-nuclear game-plan of a constant structure. Layer separations are described by pore measure and by the division main thrust. Layer division is a system that different dissolvable and solute particles with help of semi porous layers. Layer development is a non-particular term for different phenomenal, incredibly trademark segment frames. These methodology are of a comparative kind, in light of the way that in every one of them a film is used. Layer films are used regularly for the purging of groundwater, surface-water, and wastewater. Late advances in film detachment innovation accomplished another measurement in this period.
- Bio-membrane & Biotechnology
- Membrane for Pharmaceuticals
- Novel Micro-filtration Membranes
Systematic science is the investigation manages instruments and methods used to decide the item quality and amount by outright distinguishing proof and detachment of the materials. Investigative science is the mix of traditional wet lab substance strategies and present day instrumental techniques. Partition techniques like extraction, fractionation, refining required to break down the nature of the segment.
- Electro-analytical Techniques
- Analytical techniques for Biofilms
- Emerging Imaging Techniques
- Physic-chemical Analytical Techniques
Rate detachment process depend on contrasts in the motor properties of the parts of mixtures, such as the speed of movement in a medium or of dispersion through a semipermeable obstructions.
- Zone Melting
- Solvent Sublation
Spectroscopy is the investigation of correspondence amongst particles and electromagnetic radiation where it includes dissipating, assimilation, reflection or transmission of materials. The force of cooperation between these materials gives the information about the physical properties of the substance. This track manages different spectroscopy systems which go about as a fundamental examination before division.
- X-ray Spectroscopy
- Raman Spectroscopy
- Molecular & Atomic Spectroscopy
- Nuclear Magnetic Resonance Spectroscopy
Current orderly biotechnology is spun around the use of an arrangement of drawing in organize degrees of progress that give contemporary best in class instruments for genomics, proteomics, metabolomics, steady divulgence, screening and examination of predictable thing particles. Accordingly, predictable biotechnology covers all districts of bio-analysis from biochips and nanochemistry to science and high throughput screening.
- X-ray Crystallography
- Raman Spectroscopy
Partition system is a way to deal with and accomplish any marvel that changes over a blend of synthetic substance into at least two unmistakable item blends. Division strategies assumes a noteworthy part in all modern procedure and segments like oil, compound, pharmaceutical, sustenance innovation, biotechnology, mining ventures, wastewater administration. Division between constituents should be possible by the standard and customary techniques like refining, sedimentation, drying, retention and adsorption process.
- Isoelectric focussing
- X-ray Scattering Techniques
- Advances in separations using adsorbent materials
- Separation Techniques for surfactants ,particles, metallic ions
Mass spectrometry is an investigative method which ionizes atoms and sort those particles in view of their mass to charge proportion. Essentially, it quantifies the mass inside the example and used to examine the structure of materials to achieve the quality spectra. ID of obscure crests in gas chromatography (GC/MS)- based disclosure with a specific end goal to discover the protein metabolomics is testing, and it stays important to allow revelation of novel or startling metabolites in the flagging pathways as well as further our comprehension of how genotypes identify with phenotypes of that genomic arrangement.
- Imaging Mass Spectrometry
- Mass Spectrometry Configurations and Separation Techniques
- Applications of Mass Spectrometry
- Time-resolved Fluorescence Spectrophotometry
Organic chemistry is the branch of science that arrangements with biomolecules and their concoction forms inside the living framework. It centres around what's going on inside our phones, examining segments like proteins, nucleic acids, organelles, flagging pathways and their digestion to find out about these particles strategies like centrifugation, filtration, chromatography are being utilized. This session presents about the strategies utilized as a part of organic chemistry.
- Enzymatic Separation Technique
- Applications of Centrifugation
- Urea complex Technique
Process systematic science takes after process diagnostic innovation for instance utilized for the pharmaceutical business has its beginnings as a particular kind of explanatory science utilized for the strategy creation. The engineered methods are for age and quality control of created items, and process scientific innovation is used to choose the physical and concoction structure of the coveted things amid an assembling procedure.
- Micro-analytical systems
An extent of explanatory devices and frameworks are used in the disclosure of affirmation or examination of materials noteworthy to the examination of bad behaviours or to other true blue methods. Such quantifiable affirmation may show up as natural illustrations, spared take after materials and fabricate ups or contaminant, phony or lie materials.
- Forensic Entomology
- Forensic Engineering
- Computational Forensics
- Forensic Anthropology
Biomarkers are directly continuously used as a piece of the pharmaceutical business for early confirmation of-thought contemplates and, also, much research is focusing on the change of definite and judicious biomarkers for motivation behind brain biosensor systems in the clinical condition and past.
- Biomarker Technology Innovation
- Integrating Biomarkers into Drug Development
- Future of Biomarkers
- Standardization and Regulation of Biomarkers
Pharmaceutical examination is a branch of common sense science that incorporates a movement of process for recognizing evidence, affirmation, estimation and cleaning of a substance, parcel of the portions of an answer or mix or confirmation of structure of engineered blends.
- Pharmaceutical Nanotechnology
- Modern Pharmaceutical Analysis
- Absorption Spectroscopy in Pharmaceutical Analysis
The progression of the bio-analytical strategy brought a dynamic teach for which the future holds numerous stimulating chances to advance headways. The rule impact of bio-analysis in the pharmaceutical territory is to procure a quantitative measure of the medication and its metabolites. The explanation behind existing is to play out the pharmacokinetics, toxico-kinetics, bio-equivalence and introduction response like pharmacokinetic/pharmacodynamic looks at. Distinctive bio-analytical frameworks are performed in bio-analytical ponders, for instance, hyphenated techniques, chromatographic techniques, and ligand bio-analytical methodologies. This review broadly features the piece of bio-analytical strategies and hyphenated instruments in assessing the bio-analysis of the medicines.
- Microscopy, Hybrid Methods, and Thermal Analysis
- Bio-analytical Method Validation
- Advances in Bio-analytics, Biomarkers and Diagnostics
- Analytical Proteomics and Metabolomics
Advancements used to perform bio-analytical methods change as demonstrated by the sub-nuclear substance's inclination. With compound items, the natural parts of test tests can be cleared by precipitation or extraction, allowing staying little atom.
- Quality assurance in Analytical Chemistry
- DNA Sequencing
- Recent advances in emerging Imaging Techniques
- Ion sensors
This track covers all the key regions in Separation Science that incorporates, Adsorption, Centrifugation, Extraction, Crystallization, Evaporation, Electrostatic partition, Crystallization, Distillation, Flotation, microfiltration, Flocculation, Filtration film forms, Fractional refining, Precipitation, Sublimation, Vapour-fluid detachment, Sedimentation, Gravity division, Electrophoresis, Ultrafiltration, Chromatography, cyclonic partition, Froth buoyancy, Reverse osmosis, dialysis (natural chemistry), Desalination, Wastewater Treatment and so forth which are creating in a quick speed to make an improvement of Analytical Science.
- Separation by Diffusion
- Laser Separation
- Separation by High Capacity Polymers
- Cryogenic Distillation
- Solvent Extraction and Ion Exchange Separations
Partition process required between biomolecules like proteins, amino acids, sugars, cells, tissues, Microorganisms which can isolated by utilizing different methods like electrophoresis, Cytometry, Elucidation are managed under this subject.
- Ultra-filtration of proteins
- Molecular Separations
- Separation process for Biofilms
- Separation process in Biofuels and by-products
Natural science is the investigation manages physical and concoction nature of natural materials which contains carbon particles. Supra-molecular science is the examination centres around the substance framework instead of particles. It manages the sub-atomic get together where at least two mixes communicate with feeble electrostatic to solid covalent holding gave electronic coupling between particles. This track manages the partition methods engaged with natural science.
- Solid-Liquid Extraction
- Separation of Organic Compounds
- Separations using Adsorbents
- Solid Phase Extraction Chromatography
- Chiral Separation Techniques
Hyphenated systems is the blend of mass spectrometry and chromatography in which the particles can be identified and afterward isolated in like manner by chromatographic detachment procedure. The term Hyphenated strategies ranges from the mix of division ID, hyphenated frameworks, e.g., GC-MS, LC-MS, LC-FTIR, LC-NMR, CE-MS, et cetera. Hyphenated systems alongside chromatographic and spooky procedures to mishandle the advantages of both segment separation techniques. These frameworks show specificity and affectability. A Hyphenated framework is blend or coupling of two particular efficient techniques with the help of two honest to goodness interfaces. Headways in mixture partition systems over the previous decade has critical outgrowth which added another measurement to the detachment methods particularly for the investigation of biomaterials.
- Liquid Chromatography-Infrared Spectroscopy (LC-IR)
- Gas Chromatography – Mass Spectrometry (GC-MS)
- Capillary Electrophoresis- Mass Spectrometry
- Solid state Nuclear Magnetic Resonance-NMR
Division instruments like fragmentary tapping chromatography, spectrometry, NMR investigation for the detachment common mixes are creating with computerized, less tedious, mistake free and with a client free manufacture. Propelled thoughts like instruments in a chip i.e. lab in a chip (smaller scale manufactured gadgets) with MEMS innovation instruments which are produced with such imaginative thoughts can be shown in this talk.
- Microfluidic Techniques
- Chip based Electrospray Ionization Technology
- Zip chip Separations for Glycoproteins, Glycomics
- Innovative fabrication of Separation Equipment
Fractionation is a division strategy as far as stage change. It most presumably utilized as a part of all exploration and mechanical areas. Attractive partition is utilized to isolate materials which are helpless to the attractive field. Attractive Separation is the route toward using appealing drive to remove metallic or ferrous materials from a blend. This track manages partitions in view of the attractive field combined with electric present, electrostatic division, and polarizing detachment.
- Polarized Separation
- Field-flow Fractionation
- Electromagnetic Separations
- Fractionation of Bio-samples, Radioactive Materials
Inorganic analysis is an order of logical science which used to discover arrangement of inorganic materials. Recognizing and partition of particles from different mixes. Supra-molecular science is the examination centres around the compound framework instead of particles. It manages the sub-atomic gathering where at least two mixes cooperate with feeble electrostatic to solid covalent holding furnished with electronic coupling between particles.
- Potentiometric Titration
- Dynamic Light Scattering Instrument
- Qualitative and Quantitative Analysis of Inorganic Compounds
- Separation of Inorganic Materials by Chromatographic Techniques
There are three primary techniques of EOR: gas injection, thermal injection, and chemical injection. Gas injection, which uses gases such as natural gas, nitrogen, or carbon dioxide (CO2), accounts for nearly 60 percent of EOR production in the United States. Thermal power injection, which involves the introduction of heat, accounts for 40 percent of EOR production in the United States, with most of it occurring in California. Chemical information of injection, which can involve the use of long-chained molecules called polymers to increase the effectiveness of water floods, accounts for about one percent of EOR production in the United States. In 2013, a technique called Plasma-Pulse chemical technology was introduced into the United States from Russia. This technique can result in another 50 percent of improvement in existing well production.
Enhanced oil recovery (abbreviated EOR) is the implementation of various techniques for increasing the amount of crude oil that can be extracted from an oil field. Enhanced oil recovery is also called improved oil recovery or tertiary recovery (as opposed to primary and secondary recovery). According to the US Department of Energy, there are three primary techniques for EOR: thermal recovery, gas injection, and chemical injection. Sometimes the term quaternary recovery is used to refer to more advanced, speculative, EOR techniques. Using EOR, 30 to 60 percent, or more, of the reservoir'soriginal oil can be extracted, compared with 20 to 40 percent using primary and secondary recovery.
- Gas Injection
- Microbial EOR
- Characterisation, Simulation, and Modeling
- Field Implementation
Oil and gas are also important for the number of jobs they provide. Tens of thousands of people work in the oil and gas industry. The oil and gas industry is usually divided into three major sectors: upstream (or exploration and production- E&P), midstream and downstream. The upstream sector includes searching for potential underground or underwater crude oil and natural gas fields, drilling exploratory wells, and subsequently drilling and operating the wells that recover and bring the crude oil or raw natural gas to the surface. Midstream Operations are sometimes classified within the downstream sector, but these operations compose a separate and discrete sector of the petroleum industry. Midstream operations and processes include the following: Gathering, Processing/refining, Transportation, Storage, Technological applications. We now produce natural gas from buried coal seams, oil and natural gas from deep deposits located miles beneath the surface of the earth, and in the deep ocean, hundreds of miles offshore and in water depths greater than 10,000 feet. Some petroleum industry operations have been responsible for water pollution through by-products of refining and oil spills. The industry is the largest industrial source of emissions of volatile organic compounds (VOCs), a group of chemicals that contribute to the formation of ground-level ozone (smog).The combustion of fossil fuels produces greenhouse gases and other air pollutants as by-products. Pollutants include nitrogen oxides, sulphur dioxide, volatile organic compoundsand heavy metals. Oil and gas are often found far away or under the sea. They have to be transported to an oil refinery. This is often through a pipeline or in a tanker.
It is a branch of chemistry that studies the transformation of crude oil (petroleum) and natural gas into useful products or raw materials. These petrochemicals have become an essential part of the chemical industry today. Petro chemistry is a science that can readily be applied to fundamental human needs, such as health, hygiene, housing and food. To many, this comes as a surprise. The word "chemistry" itself conjures up a world of mystery - what it really does is very much taken for granted. Chemicals derived from petroleum or natural gas - petrochemicals-are an essential part of the chemical industry today. Petro chemistry is a fairly young industry; it only started to grow in the 1940s, more than 80 years after the drilling of the first commercial oil well in 1859. During World War II, the demand for synthetic materials to replace costly and sometimes less efficient products caused the petrochemical industry to develop into a major player in today's economy and society.
Physical Chemistry is the study of macroscopic, atomic, subatomic, and particulate phenomena in chemical systems in terms of the principles, practices, and concepts of physics such as motion, energy, force, time, thermodynamics, quantum chemistry, statistical mechanics, analytical dynamics and chemical equilibrium, blends the principles of physics and chemistry to study the physical characteristics, or properties, of molecules. By understanding these properties, we learn more about the way in which molecules are put together, as well as how the actual structure of a chemical is impacted by these properties. Scientific analysis of the properties and behavior of chemical systems primarily by physical theory and technique.
- Surface Science
- Reaction Kinetics
- Intermolecular forces
- Reactive Intermediates
- Chemical Stabilities
- Pericyclic Reaction
- Free energy of Activation
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5th International Separation Techniques Conferences October 23, 2017 Paris, France; 4th International Physical Chemistry Conferences and Theoretical Chemistry Conferences September 18, 2017 Dublin, Ireland; 3rd International Exhibition on Advances in Chromatography Conferences and HPLC Techniques Conferences July 13, 2017 Berlin, Germany; 3rd International Electrochemistry Conferences July 10, 2017 Berlin, Germany;World Analytical Conferences and Bioanalytical Techniques Conferences September 17, 2018, Singapore; 6th International Advances in Chromatography Conferences and HPLC Techniques Conferences August 02, 2018, Barcelona, Spain; 8th Annual Analytical Conferencces and Bioanalytical Techniques Conferences Brussels, Belgium August 28, 2017; 8th European Chemistry Congress June 21, 2018 Paris, France; Extractables Conferences and Leachables Conferences 2017, 07 November 2017, Lyon, France; Eletronic Structure Conferences and Spectroscopy of Transition Metal Complexes Conferences 03 September 2017 , Gelsenkirchen, Germany; HPLC Methods Conferences 26 October 2017, Dublin, Ireland; 7th Edition Multivariate Analysis and Chemometry Conferences 27 May 2018, Lecce, Italy; IEASI-2017 International Expo on Analytical Sciences Conferences and Instrumentation Conferences 06 November 2017, Barcelona, Spain;Polymorphism Conferences and Crystallisation Conferences 03 October 2017, Edinburgh, United Kingdom
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5th Annual Asia Chemical Conferences, November 01, 2017, Singapore; World Analytical Conferences and Bioanalytical Techniques Conferences September 17, 2018 Singapore City, Singapore; Global Experts Chemistry Conferences May 17, 2018 Singapore City, Singapore pharma analyis Dubai, UAE; Annual Analytical Conferences and Separation Techniques Conferences October 12, 2017 Osaka, Japan; World Analytical Conferences and Bioanalytical Techniques Conferences September 17, 2018, Singapore City, Singapore
Pan Africa Chemistry Network Conferences 2017: Sustainable Agriculture; How the Chemical Sciences Can Contribute to Food Security for a Growing Population 7 November 2017, Accra, Ghana;GC-MS Conferences: A Hands on Approach on 2 October 2017, Addis Ababa , Ethiopia; The 3rd TCS International Conferences and the 6th FASC Congress , September 11, 2017, Arusha, Tanzania; 40th Chemical Society Annual International Conferences-Kadacity 2017, Sep17 2017, Kaduna, Nigeria; 34th World Internal Medicine Conferences (WCIM 2018) October 18, 2018, Cape Town, South Africa
VWR International GmbH | Horiba Jobin Yvon GmbH | Hitachi High-Tech Science Corporation | Malvern Instruments GmbH | Heraeus Deutschland GmbH | Xylem Analytics Germany Sales GmbH | Bureau Veritas Consumer Products Services Germany GmbH | Merck KGaA Drägerwerk | Sympatec GmbH | Michell Instruments GmbH | Polytec GmbH | Infinium Pharmachem Pvt. Ltd | Mettler Toledo GmbH | Brand GmBH | Geuer International GmbH | anamed Elektrophorese GmbH | Hamamatsu Photonics Deutschland GmbH | Hamamatsu Photonics Deutschland GmbH | membraPure GmbH | Polytetra GmbH | Gerhardt GmbH & C | C3 Prozess- und Analysentechnik GmbH | Kruss GmbH | AHF analysentechnik AG | Quality Systems International GmbH | Elementar Analysensysteme GmbH | Campro Scientific GmbH | Heraeus Materials Technology GmbH | Starna Scientific Limited | VLM GmbH | Vertriebs GmbH | analyticon instruments gmbh | WITec Wissenschaftliche Instrumente und Technologie GmbH | Leica Microsystems GmbH | Henniker Plasma | Hahnemühle FineArt GmbH | SRI Instruments Europe GmbH | PSS Polymer Standards Service GmbH | SunChrom Wissenschaftliche Geräte GmbH | Gilson International B.V | VICI AG International | Hamilton Bonaduz AG | AlphaCrom AG | Labomatic Instruments AG | Axel Semrau GmbH | biostep GmbH | YMC Europe GmbH | Tosoh Bioscience GmbH | MZ-Analysentechnik GmbH | ERC Gesellschaft für den Vertrieb wissenschaftlicher Geräte mbH | Merck Millipore | DataApex | Showa Denko Europe GmbH | Waters GmbH | dichrom GmbH| PerkinElmer LAS GmbH | HTA S.r.l | Gerstel GmbH | SIM Scientific Instruments Manufacturer GmbH | Shimadzu Deutschland GmbH | Labexchange - Die Laborgerätebörse GmbH | Wyatt Technology Europe GmbH | Postnova Analytics GmbH | | CEM GmbH | ChemPUR Feinchemikalien und Forschungsbedarf GmbH | Gardner Denver MLS GmbH Thomas GmbH | Bronkhorst High-Tech B.V. | MKS Instruments Deutschland GmbH | Cmc Instruments GmbH | HAVER & BOECKER OHG | Xylem Analytics Germany Sales GmbH | LECO Instrumente GmbH | VWR International GmbH | Gesellschaft für Analysentechnik HLS
AB Sciex | BMG Labtech | B&W Tek | Buchiglas USA Corp | Light Technology Industries | Biomics Inc | Pickering Laboratories | Labsphere Inc | Analytica of Branford | IMR Technologies | Industrial Test Systems | Milestone Inc | DAK Americas LLC | Basic Chemical Solutions | Jacobs Engineering Group Inc | Kinetic Systems | BioCision | Anasys Instruments Corporation | Shimadzu Scientific Instruments | Agilent Technologies | BaySpec | Celerity | Pickering Laboratories | Labsphere | Analytica of Branford | IMR Technologies | International Equipment Trading Ltd | Industrial Test Systems | Eckert & Ziegler CNL Scientific Resources | Thar Instruments | High-Purity Standards | J2 Scientific | Columbus Instruments | PerkinElmer Life and Analytical Sciences | Tiger Optics LLC | Spex CertiPrep | Aspex Corporation | Extech Instruments Corp | OI Analytical | ESA Laboratories | Nova Analytics Corporation| Caliper Life Sciences | Advanced Instruments | Troemner Inc. | Optimize Technologies | Advanced Microscopy Group | MAC-MOD Analytical
Sineo Microwave Chemistry Technology Co., Ltd | Buchiglas China Corp | Taixing WTR Chemical Plant | Skyray Instrument Inc | L & W Optics Electronics Co., Ltd | HB Optical Technology Co. Ltd | Beijing Rayleigh Analytical Instruments Corp | Tianjin Bonna Agela Technologies Cs | Shanghai Xu Hang Pharmarcetical Co. Ltd | Infinium Pharmachem Pvt. Ltd | TTL Technologies Pvt. Ltd | AIMIL LTD | Electrolab | Fine Care Biosystems | Netel India Limited | Agilent Technologies India Pvt. Ltd | Hitachi High-Tech Science Corporation | T&D Corporation | Alfa Mirage Co., Ltd | Hamamatsu Photonics K.K | BDH Middle East LLC | ALS Arabia
Product Support Engineer -Liquid Chromatography-Agilent Technologies | Manager Analytics-metanomics GmbH | Quality Manager-EAG Laboratories | QC Manager-Catalent Pharma Solutions | Biophysical Analyst-SGS | Biophysical Analyst-EMPREGO.pt | Analytical Project Leader-Novartis | Analytical Chemist- Onyx Scientific Ltd | Scientist II -Analytical-Southampton-British American Tobacco | Programme Manager-Bioanalysis LCMS-HRS hyper recruitment solutions | QC Analyst-HPLC-GC-Method Development-Cranleigh | Junior Technical Sales Consultant-Seltek | Analytical Development Scientist-MedImmune | Analytical Services Manager-Entrust People Ltd | X-ray Diffraction Instrument Scientist-Johnson Matthey | Head of Analytical Chemistry-Science Solutions Recruitment Ltd | Strathclyde Chancellor’s Fellow in Analytical, Biomaterials and Physical Chemistry-University of Strathclyde | Analytical Development Scientist-Cambridgeshire | Specialist in analytical chemistry-Alfa Laval| Specialist in the area of analytical chemistry(Senior Principal Engineer) to Water Technologies-Baxter | Analytical Chemistry Supervisor / Manager-hudsonshribman | Residues and Analytical Chemistry Specialist-ERM Group
Entry Level Chemist- AECOM | Quality Control Analyst I -Teva Pharmaceuticals | Malt and Barley Lab Scientist - MillerCoors | Assistant Professor -Analytical Chemistry-University of Colorado | Associate Scientist/Scientist Chemistry- AbbVie | Analytical Chemist -Exponent | Chemist -Miniat | Analytical Chemist 1721665 -Contingent Resource Solutions, LLC | Analytical Chemist -Avon Products, Inc | Chemist -State of Tennessee | Scientist I -Bayer | Sr. Chemist-Analytical - NuSil Technology LLC | Analytical Separations/Mass Spectrometrist (PhD) -DuPont | Chemist I -Athlon Solutions | Assistant Professor-Analytical Chemistry -University of Northern Colorado | Scientist I -Central Business Solutions Inc | Expert Scientist, Separation Sciences & Sizing- GlaxoSmithKline | MV Scientist II -Luitpold Pharmaceuticals | Scientist I -Eurofins Eaton Analytical, Inc | Forensic Chemistry Analyst III -State of North Carolina |
Analytical Chemist I-Novartis | Senior Chemist-Zagro | Chemist I (Analytical)-Shire | QC Chemist-Pfizer | Associate Chemist (Junior)-Nestlé | Laboratory Analyst-West Pharma | Senior Analytical Scientist-VOLT | Analytical Scientist-RegionUP | Analytical chemist-Vitasta Consulting | Analytical Chemist (q.c & r. d)-Titan Biotech Limited | Senior Analytical Chemist-BP Healthcare | Brand Manager-Analytical Equipment-Inspire Selection | Lab Technician-Sumaco Manpower | Laboratory Technical Manager-NYU Abu Dhabi University | Researcher-Abu Dhabi | Life Sciences manager-Australian Laboratory Services | Standard Preparation Technician-DAL Mining | Territory Manager-Peak Scientific | Brand Manager-Inspire Selection
Analysis | Analyst | Analytical Abstracts | Analytical Chemistry | Analytical Chemistry: an Indian Journal | Analytical Letters | Analytical Sciences | Annali di Chimica | Biomedical Chromatography | Biospectroscopy | Bulletin of Environmental Contamination and Toxicology | Bulletin of the Chemical Society of Japan | Bulletin of the Czech Chemical Society | Chemical Society Reviews | Chemical Technology: an Indian Journal | Croatica Chemica Acta | Crystallography Reports | Crystallography Reviews | Crystal Research and Technology | Fresenius' Journal of Analytical Chemistry | Industrial and Engineering Chemistry | Industrial and Engineering Chemistry Analytical Edition | Industrial and Engineering Chemistry Chemical and Engineering Data Series | Industrial and Engineering Chemistry Fundamentals |Industrial and Engineering Chemistry Process Design and Development | Industrial and Engineering Chemistry Product Research and Development | Industrial and Engineering Chemistry Research | Journal of Analytical Atomic Spectrometry | Journal of Analytical Chemistry | Journal of Analytical Chemistry | Journal of Bioluminescence and Chemiluminescence | Journal of Biomolecular NMR | Journal of Chemical and Engineering Data | Journal of Chemical Crystallography | Journal of High Resolution Chromatography | Journal of Immunoassay and Immunochemistry | Journal of Liquid Chromatography & Related Technologies | Journal of Luminescence | Journal of Magnetic Resonance | Journal of Mass Spectrometry | Journal of Microcolumn Separations | Journal of Molecular Spectroscopy | Journal of Raman Spectroscopy | Journal of Separation Science | Journal of Structural and Functional Genomics | Journal of Structural Biology | Journal of Structural Chemistry | Mikrochimica Acta | NMR in Biomedicine | Chinese Journal of Chemistry | Optical Materials | Physics and Chemistry of Minerals | Phytochemical Analysis | Separation and Purification Methods | Separation Science and Technology | Single Molecules | Solid State Nuclear Magnetic Resonance | Separation and Purification Methods | Separation Science and Technology | Single Molecules | Solid State Nuclear Magnetic Resonance | Ukrainian Chemistry Journal | Vibrational Spectroscopy | X-Ray Spectrometry | Zeitschrift fur Kristallographie
Organic Elemental Analyzer | Flame and Flameless Atomic Absorption Spectrometer | Emission Spectrophotometer | Inductively Coupled Plasma Emission Spectrometer | X-ray Fluorescence Analyzer | X-ray Photoelectron Spectrometer | Auger Electron Spectrometer | Electron Probe X-ray Microanalyzer | Field Emission Scanning Electron Microscope | Low Level Alpha particle measuring instrument | Transmission Electron Microscope | Scanning Electron Microscope | Atomic Force Microscope | Optical Microscope | Field Emission Scanning Microscope | Nuclear Magnetic Resonance Analyzer | Visible/Ultraviolet Spectrochemical Analyzer | Raman Spectrometer | X-ray Diffraction Analyzer | Electron Spin Resonance Analyzer | Fourier Transform Infrared Microspectrometer | Scanning Infrared Microprobe Analyzer | Thermogravimetric Analyzer | Differential Scanning Calorimeter | Reaction Heat Measuring Instrument | Thermal Expansion Coefficient Measuring Instrument | Gas Chromatography | Liquid Chromatograph | Thin Layer Chromatograph | Instruments for Liquid Chromatography-Mass Spectrometer | Gel Permeation Chromatograph Scattering Method Capillary Electrophoresis