Recent Advancements in Analytical Chemistry
ME Conferences invites all the participants from all over the world to attend ANALYTICAL CONF 2021 which is to be held online during September 2, 2021 which includes keynote presentations, Oral talks, Poster presentations and exhibitions.
This conference aims to provide a forum for researchers from various areas of chemical industry, food analysis, pharmacogenomics research Phytochemical Analysis, method development and validation by providing a platform for critical analysis of new data, scope for analytic chemist and to share latest cutting-edge research findings and results about all aspects of Analytical chemistry.
TRACKS / SESSIONS
Track 1: Scope for Analytical Chemistry
Analytical chemists use their knowledge of laboratory and industrial instrumentation, computer and statistics to solution of problems in almost all areas of chemistry and for all kinds of industries. For example, their estimation are used to assure the safety and quality of food, pharmaceuticals, and water; to assure compliance with environmental and other regulations; to support the legal process; to help physicians to predict the diseases; and to provide evaluation and documentation important to trade and commerce.
- Drug formulation and development
- Chemical or forensic analysis
- Process development
- Quality control
Track 2: Mass Spectrometry
Mass spectrometry is an analytical instrument useful for calculate the mass-to-charge ratio (m/z) of one or more molecules present in a sample. In This Basic Principle is separation of ions .Mass spectrometry is a scientific strategy that ionizes particles to particles and they can be carried about and controlled by outside electric and attractive fields. The examples are generally presented through a warmed group, warmed direct inclusion test, or a gas chromatograph. Ionization Mass Spectrometry (ESI-MS) which is turned into an inexorably critical procedure in the clinical research Centre for basic audit or quantitative estimation of metabolites in a complex organic example
- Secondary ion mass spectrometry
- Gas chromatography mass spectrometry
- Liquid chromatography mass spectrometry
- Crosslinking mass spectrometry
- Hydrogen-change mass spectrometry
Track 3: Advances in Separation Techniques
The process of separation is vital unit hobby with inside the majority of the Modern Pharmaceutical Techniques, substance and exclusive method plant life. Among the separation forms, a few are well known and common place processes, comparable to, refining Process, retention method, adsorption method, and so forth. These processes are very regular and the vital improvements are all round created and all round examined. Then again, greater cont emporary separation methods like membrane primarily based totally methods, super-important fluid extraction, chromatographic separation, and so on, are choosing up importance in cutting-edge day’s plant life as novel detachment forms.
- Hyphenated Separation Techniques
- Chromatography as a Separation Technique
- Spectroscopy as Separation Technique
Track 4 Analytical Chemistry and Methodology
Analytical Chemistry is the technology of obtaining, processing, and speaking facts approximately the composition and shape of matter. Analytical chemistry research and makes use of gadgets and strategies used to separate, identify, and quantify matter. In exercise separation, identity or quantification might also additionally represent the complete evaluation or be mixed with every other method. Separation isolates analytes. Traditional method subdivided into techniques: the qualitative and the quantitative approach for exam.
- Acid base methods
Track 5: Biopolymers and Biomaterials
Biopolymers are pulling in enormous thought for the most part because of their contrasting uses that can address creating environmental concerns and required demands. The enhancement of various bio-materials makes important types of progress in the helpful field likewise, and different bio-polymers are used for the formation of bio-materials. Together, biopolymers and biomaterials in Analytical chemistry make unprecedented potential for new materials, uses, and functions..
- Starch based bio-polymers
- Sugar based bio-polymers
- Cellulose based bio-polymers
- Synthetic based bio-polymers
Track 6: Chromatography and its Mechanism
Chromatography is a technique used for the separation of mixtures. The mixture is dissolved in a fluid is called the mobile phase, which moves it through a system on which is fixed a material called the stationary phase. Chromatographic techniques are based on four different sorption mechanisms, surface adsorption, partition, ion exchange and size exclusion. The separation mechanism depends upon variance in polarity between the different feed components. Almost any polar solid can be employed as a polar stationary phase.
- Thin-layer chromatography
- Paper chromatography
- Advances in chromatography & HPLC techniques
- Liquid chromatography
- Gas chromatography
Track 7: Electrophoresis and its Principle
Electrophoresis is the moving of diffuse particles relative to a fluid under the influence of a fixed electric field. Electrophoresis of positive charged particles is called cataphoresis, while electrophoresis of negatively charged particles is called anaphoresis. . An electrophoretic consists of two electrodes of opposite charge anode and cathode connected by a conducting medium called an electrolyte. Electrophoresis exploits the fact that different ions have different mobility in an electric field and so can be segregation by this way.
- Capillary electrophoresis
- Isoelectric focusing
- Immuno fixation electrophoresis
- Pulsed field gel electrophoresis
- Two-dimensional electrophoresis
Track 8: Environmental Analytical Chemistry
Environmental Analytical Chemistry focus on specialization in advanced modern analytical methodology to confront variant difficulties in environmental and parmaceutical industry .The Journal covers zone, for example, analytical instrumentation techniques for rem estimations, assurance of trace atmospheric constituents of anthropogenic and characteristic root, location and ID of natural and inorganic poisons in air, water, soil resolution and validation of substantial metals and radionuclides in the environment, diverse technique of chemo metrics in ecological examination. Instances of issues which have been tended by climatic science concentrate destructive rain, ozone consumption, photochemical fumes cloud, greenhouse gases and a global warming. Environmental chemistry includes some points that concentrate astrochemistry, environmental science, ecological demonstration, geochemistry, marine chemistry and pollution remediation.
- Environmental chemistry
- Analytical chemistry
Track 9: New Instrument and Equipment
Analytical instruments are a large class of instruments used for analytical uses in chemical, pharmaceutical, clinical, food-processing laboratories and oil refineries. The analytical instruments help in evaluate materials and the composition analytical instruments include mass spectrometers, chromatographs (e.g. gas chromatography and high performance liquid chromatography), titrates, spectrometers (e.g. AAS, X-ray, and fluorescence), particle size analyser’s, rheometers (flow and deformation of matter) elemental analyser’s (e.g. salt analyser’s, CHN analyser’s), thermal analyser’s
- Analytical instruments for nanomaterial study
- New trends in the analytical determination of contaminants
- Preparation automation for gas chromatography injection
- NMR analysis of natural samples
- Laboratory and industrial instrumentation
Track 10: NMR Spectroscopy and its Principle
Nuclear Magnetic Resonance (NMR) spectroscopy is an analytical chemistry technique utilised in quality control and research for evaluating the content and purity of a sample as well as its molecular structure. For example, nuclear magnetic resonances are used for quality analysis of mixtures containing known compounds. The resonant frequencies of the nuclei are then estimate and converted into an NMR spectrum that shows all of the right frequencies as peaks on a graph. The principle of NMR is that have nuclei have spin and all nuclei are having charge. If an magnetic field is applied, an energy transfer is possible between the base energy to a higher energy level.
- It is used to the quality control
- Research of a sample as well as its molecular structure
- Purity of sample as well as its molecular structure
Track 11: Pharmaceutical Analytics and its Role
Pharmaceutical analytics is traditionally defined as analytical chemistry deals about the drugs both as bulk drug substances and as pharmaceutical formulations. However in academia, as well as in the pharmaceutical industry, other branches of analytical chemistry are also involved viz. bio analytical chemistry, drug metabolism studies, and analytical c. The development of drugs in the pharmaceutical industry is a long-term process, often taking more than a decagon from the start of the research project to appearance of a drug on the market.
- Drug manufacturing
- Process control in industry
- Environmental monitoring
- Medical diagnostics
- Food production
- Forensic surveys
Track 12: Polymer Science and Material Science
Polymer Science and Material Science are made and designers who focus on new things, multidisciplinary answers for materials, systems, and things initially at the atomic level l.Masters in our area of ability are coordinating and testing new common, inorganic, and polymeric materials that can be related in biodegradable plastics, sun based cells, light-emanating diodes, control gadget terminals, alluring contraptions, deplete frameworks, layers, hydrogen amassing devices, and diverse applications.
- Dynamic mechanical investigation
- Differential filtering calorimetry
- Materials designing
Track 13: Spectroscopy and Its Types
Spectroscopy is used in physical and Analytical chemistry because atoms and molecules have one type of spectra. As a result, these spectra can be useful to analysis, identify and detect the information about the atoms and molecules. Spectroscopy and Spectrogram are terms used to allude to the identification of radiation force as an element of wavelength and are regularly used to depict exploratory spectroscopic strategies. Ghastly estimation gadgets are alluded to as spectrometers, spectra-photometers, spectrographs or otherworldly analysers.
- Electromagnetic radiation
- Absorption spectroscopy
- Emission spectroscopy
- Flame emission spectroscopy
- IR and NIR spectroscopy
Track 14: Thermal Analysis
A branch of materials science where the properties of materials are considered as they change with temperature is what thermal analysis means some techniques are normally used – these are recognized from each other by the property which is calculated by dielectrically thermal Analysis dielectric permittivity and loss factor. Types of thermal analysis Dielectric thermal analysis, various thermal analysis, Differential Scanning Calorimetric, Dilatometer, Dynamic Mechanical Analysis, Evolved Gas Analysis, Laser flash analysis, thermo gravimetric analysis thermo medical analysis, Thermo-optical analysis and Derivatograph.
Track 15: Applications of Analytical Chemistry
Environmental Analytical chemistry with the development of analytical methods to be used to resolve problems in environmental chemistry, such as environmental observe, studies of the nature of water and pollutants contents of effluent.Process Analytical Technologies involve the use of raw material properties, manufacturing parameters, process observe, and chemo metric techniques to produce finished products of acceptable status. The central point of PAT is to generate product nature information in real-time.Then qualitative and quantitative audit can be performed, often with the same instrument and may use light interaction, heat interaction, electric fields or magnetic fields.
- Forensic analysis
- Environmental analysis
- Metabolites analysis
- Research in genetic fingerprinting
- Thermo gravimetric
Track 16: Nano Photonics
Nano photonics often includes metallic element that can transport and focus light through surface plasmon polaritons.Using nanophotonics to create high peak intensities: If a given amount of light energy is compress into a smaller and smaller volume. This is mainly helpful in nonlinear optics; an example is surface-enhanced Raman scattering. It also allows sensitive spectroscopy determination of even single molecules located in the hot-spot, unlike traditional spectroscopy methods which take an mean over millions or billions of molecules.