LONGDOM Conferences will offer delegates the opportunity to be fully briefed on the current situation within the optical communication system and gain an update on the latest developments in terms of technical policy and funding.
Longdom proffers our immense pleasure and honor in extending you a warm invitation to attend Spectrometry 2020. It is focusing on ‘Utilizing the Latest Developments in Spectrometry and Analytical Chemistry ’ to enhance and explore knowledge among Spectrometry and to establish corporations and exchanging ideas. Providing the right stage to present stimulating Keynote talks, Plenary sessions, Discussion Panels, B2B Meetings, Poster symposia, Video Presentations, and Workshops.
Sessions & Tracks
Tracks 01: Atomic Spectroscopy
It deals with the study of electromagnetic radiation absorbed and emitted by atoms. The unique elements have characteristic spectra, atomic spectroscopy, specifically, a mass spectrum is applied for the determination of elemental compositions.
Tracks 02: Mass Spectroscopy
Mass spectrometer is an analytical technique that measures the mass-to-charge ratio of ions. It is used in many different fields and also applied to pure samples as well as complex mixtures. The instrumental method for identifying the chemical constitution of a substance by means of the separation of gaseous ions
Trace gas analysis
Data and analysis
Preparative mass spectrometry
Tracks 03: Raman spectroscopy
It is a spectroscopic technique based on inelastic scattering of monochromatic light, usually from a laser source. Inelastic Scattering of monochromatic light means that the frequency of photons in monochromatic light changes upon interaction with a sample
Track 04: Photo thermal spectroscopy
Photo thermal spectroscopy is a group of high sensitivity spectroscopy techniques which is used to measure optical absorption and thermal characteristics of a sample. The basis of photothermal spectroscopy is the change in the thermal state of the sample resulting from the absorption of radiation.
Track 05: X-ray photoelectron spectroscopy
X-ray photoelectron spectroscopy also is known as electron spectroscopy for chemical analysis. X-ray photoelectron spectroscopy is used to determine quantitative atomic composition and chemistry. This is a surface analysis technique with a sampling volume that extends from the surface to a depth of approximately 50–70 Å.
Track 06: Ultraviolet-visible spectroscopy
UV-visible spectrometers can be used to measure the absorbance of ultraviolet by a sample, either at a single wavelength or perform a scan over a range in the spectrum. Ultraviolet region ranges from 190 to 400 nm and the visible region from 400 to 800 nm.
Track 07: Nuclear Magnetic Resonance
It is a physical phenomenon in which nuclei in a strong static magnetic field are perturbed by a weak oscillating magnetic field
Track 08 Infrared Spectroscopy
It deals with the infrared region of the electromagnetic spectrum that is light pass with a longer wavelength and lower frequency than visible light. It is mostly based on absorption spectroscopy.
Track 09: Bio-analytical Methodology
It deals with the quantitative measurement of xenobiotic i.e drugs and their metabolites and biological molecules in unnatural locations and concentrations, metabolites in biological systems
Ligand Binding Analysis
Track 10: Chromatography
Chromatography is a laboratory technique it is used for the separation of a mixture. The mixture is dissolved in a fluid called the mobile phase, which carries it through a Column 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.
Track 11: Advances in Separation techniques
The Separation Process in the chemical engineering includes Adsorption, Capillary electrophoresis, Centrifugation and cyclonic separation, Crystallization, Decantation, Distillation, Drying, Electrostatic Separation, Elutriation, Evaporation, Extraction, Field flow Fractionation, Magnetic separation, Precipitation
Track 12: Industrial Analysis
Industry analysis is a business function completed by business owners and other individuals to assess the current business environment. This analysis helps businesses understand various economic pieces of the marketplace and how these various pieces may be used to gain a competitive advantage. Although business owners may conduct an industry analysis according to their specific needs, a few basic standards exist for conducting this important business function
Track 13: Microbiological Analysis
Microbiological analysis is the using of biological, biochemical, molecular or chemical methods for the detection, identification, and enumeration of microorganisms in a material and drug products.
Quality control tests
Track 14: Biochemical Analysis
Biochemical analysis is an invaluable tool that helps us to understand the function of proteins or protein complexes at the molecular level.
Track 15: Gravimetric analysis
Gravimetric analysis is a technique through which the amount of an analyte can be determined through the measurement of mass. Gravimetric analyses depend on comparing the masses of two compounds containing the analyte.
miscellaneous physical method
Track 16: Applied Analytical Chemistry
Analytical chemistry studies and uses instruments and methods used to separate, identify, and Standard addition can be applied to most analytical techniques and is used instead of a calibration curve to solve the matrix effect problem
Analysis of Fertilizers
Track 17: Spectroscopy tools in Nanotechnology
The most intriguing part for researchers is the complex properties that are shown by nanoparticles and nanostructures. Microscopic methods such as SPM and electron microscopes are available to observe nanomaterials at the nanoscale level but the chemical, structural and optical properties are not possible with these instruments. This is where spectroscopic characterization techniques are used to investigate the properties of the nanomaterials.
Track 18: Clinical Chemistry and Laboratory Techniques
Clinical Chemistry is the field of clinical pathology involved with the analysis of body fluids. The discipline originated within the late nineteenth century with the use of simple chemical tests for diverse elements of blood and waste product. After this, totally different clinical biochemistry techniques were applied at the side of the use and live of catalyst activities, spectrophotometry, action, and biological assay. Endocrine pathology is that the subspecialty of surgical pathology that deals with the diagnosing and characterization of growth and non-neoplastic diseases of organs of the system, as well as the thyroid, parathyroid gland, secreted exocrine gland, and adrenal glands. Pharmacology is additionally a branch of biological chemistry, and medicines committed the study of the adverse effects of chemicals on living organisms. A diagnosing may be an academic degree array of tests performed on excreta, and one in all the foremost common ways of disease susceptibility.
Track 19: Analytical & BioAnalytical Techniques
Bioanalysis may be a sub-discipline of analytical chemistry covering the quantitative activity of xenobiotics (drugs and their metabolites, and biological molecules in unnatural locations or concentrations) and biotic (macro and macromolecules, proteins, DNA, giant molecule medicine, metabolites) in biological systems. Applications for analytical and Bioanalytical method development and validation are as follows: biological safety test, clinical support, separation of a mixture of the compound, drug analysis. Importance of understanding proteomics and process of food science is important and can be discussed by using separation techniques
Track 20: Ionization Techniques
There are many types of ionization techniques are used in mass spectrometry methods. The classic methods that most chemists are familiar with are electron impact (EI) and Fast Atom Bombardment (FAB). These techniques are not used much with modern mass spectrometry except EI for environmental work using GC-MS. Electrospray ionization (ESI) - ESI is the ionization technique that has become the most popular ionization technique. The electrospray is created by putting a high voltage on a flow of liquid at atmospheric pressure, sometimes this is assisted by a concurrent flow of gas. Atmospheric Pressure Chemical Ionization (APCI) - APCI is a method that is typically done using a similar source as ESI, but instead of putting a voltage on the Electrospray Tandem Mass Spectrometry Newborn Screening itself, the voltage is placed on a needle that creates a corona discharge at atmospheric pressures. Matrix-Assisted Laser Electrophoresis is a technique of ionization in which the sample is bombarded with a laser. The sample is typically mixed with a matrix that absorbs the radiation biophysics and transfers a proton to the sample. Gas-Phase Ionization.
Track 21: Proteomics and Its Applications
Mass spectrometry (MS) - based proteomics allows the sensitive and accurate quantification of almost complete proteomes of complex biological fluids and tissues. At the moment, however, the routine usage of MS-based proteomics is prevented and complicated by the very complex workflow comprising sample preparation, chromatography, MS measurement followed by data processing and evaluation. The new technologies, products, and assays developed by Precision Proteomics could help to enable and to establish mass spectrometry (MS) - based proteomics in academic and pharmaceutical research as well as in clinical diagnostics.
Track 22: Application of Mass Spectrometry
Application of Mass Spectrometry includes the ion and weights separation. The samples are usually introduced through a heated batch inlet, heated direct insertion probe, or gas chromatography. Ionization mass spectrometry (ESI-MS) has become an increasingly important technique in the clinical laboratory for structural study or quantitative measurement of metabolites in a complex biological sample. MS/MS applications are plentiful. Mass spectrometry is an analytical method with high specificity and a growing presence in laboratory medicine. Various types of mass spectrometers are being used in an increasing number of clinical laboratories around the world, and, as a result, significant improvements in assay performance are occurring rapidly in areas such as toxicology, endocrinology, and biochemical markers. This review serves as a basic introduction to mass spectrometry.
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