23^rd Global Summit on Analytical and Bioanalytical Techniques September 12-13, 2022 Prague, Czech Republic

With members from around the world focused on learning about Analytical Chemistry, Pharmaceutical chemistry, Chromatography, Mass spectrometry and Pharmacology; this is your single best opportunity to reach the largest assemblage of participants. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 2-day event. World-renowned speakers, the most recent techniques, and the newest updates in fields are hallmarks of this conference.

We make sure to support and motivate 'Young Researchers' by:

• Establishing their academic and professional relationships.
• Improving their morale and confidence of presenting research in an international platform.
• Interacting with expertise in their respective departments.
• Clearing your inhibitions of adjusting to the foreign environment.
• Providing a holistic experience of academic tourism.

 

 Track 1. Analytical Chemistry and Methodology 

Analytical Chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter. Analytical chemistry studies and uses instruments and methods used to separate, identify, and quantify matter.  In practice separation, identification or quantification may constitute the entire analysis or be combined with another method. Separation isolates analytes. Traditional technique subdivided into two strategies: the qualitative and the quantitative strategy for examination:-

Qualitative Examination- Established subjective investigation is performed by including one or a progression of synthetic reagents to the analyte. By watching the concoction responses and their items, one can conclude the personality of the analyte. The additional reagents are picked so they specifically respond with one or a solitary class of substance mixes to shape a particular response item.

Quantitative Investigation- Traditional quantitative investigation can be partitioned into gravimetric examination and volumetric examination. The two strategies use comprehensive concoction responses between the analyte and included reagents.

• Applications of Analytical Chemistry
• Environmental Analytical Chemistry
• Process Analytical Chemistry
• Instrumental Methods

Track 2.  Bioanalytical Methodology

The headway of the bioanalytical techniques brought a dynamic order for which the future holds many stimulating chances to assist progressions. The guideline impact of bio-investigation in the pharmaceutical region is to gain a quantitative proportion of the medication and its metabolites. The purpose behind existing is to play out the pharmaco-kinetics, toxic-energy, bio-equivalence and introduction response like pharmacokinetics/ pharmaco-dynamics examines. Diverse bioanalytical frameworks are performed in bio-logical examinations. This review generally features the piece of bio-scientific strategies and hyphenated instruments in assessing the bio-examination of the drugs.

• Hyphenated techniques
• Chromatographic strategies
• Ligand bio-diagnostic procedures

Track 3. Polymer Science and Material Science

Polymer Science and Material Science are made out of specialists and designers who focus on creative, multidisciplinary answers for materials, systems, and things starting at the atomic level. The disclosure of new materials is essential to making advancement for what's to come. Masters in our area of ability are coordinating and examining new common, inorganic, and polymeric materials that can be associated 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
• Electron Turn Reverberation Spectroscopy
• Fluorescence
• Differential Filtering Calorimetry
• Materials Designing

Track 4. Biopolymers and Biomaterials

Biopolymers are pulling in enormous thought for the most part because of their contrasting applications that can address creating environmental concerns and essential demands. The enhancement of various bio-materials makes important types of progress in the helpful field likewise, and various bio-polymers are used for the formation of bio-materials. Together, biopolymers and biomaterials make unprecedented potential for new materials, applications, and vocations.
 

Biopolymer and Biomaterials, covers the science and utilization of bio-polymers and bio-materials. It shows an assortment of different examinations on bio-polymers and bio-materials, close by their results, clarification, and the ends met up at through examinations. It joins bio-polymer blend, their depictions, and their potential applications.

• Starch based bio-polymers
• Sugar based bio-polymers
• Cellulose based bio-polymers
• Synthetic based bio-polymers
• Investigating Nano-structured hydro-gels for applications ranging from regenerative medicine to cancer therapy

Track 5. Chromatography

Chromatography is a lab method for the detachment of a blend. The blend is disintegrated in a liquid called the portable stage, which helps it through a structure holding another material called the stationary stage. The different constituents of the blend travel at various velocities, making them isolated. The detachment depends on differential parceling between the versatile and stationary stages. Unobtrusive contrasts in a compound's parcel coefficient result in differential maintenance on the stationary stage and along these lines influence the detachment.  Chromatography might be preparative or analytical. The reason for preparative chromatography is to isolate the parts of a blend for later utilize, and is subsequently a type of filtration. Expository chromatography is done regularly with littler measures of material and is for building up the nearness or estimating the general extents of analytes in a blend. The two are not totally unrelated.

• Gas Chromatography
• Thin-Layer Chromatography
• Paper Chromatography
• Liquid Chromatography
• Advances in Chromatography & HPLC Techniques

Track 6. Electrophoresis

Electrophoresis delineates the relocation of a charged particle influenced by electric field. The rate of development of atom depends upon the nature of the field, on the net charge size and condition of the particles and besides on the ionic quality, consistency and temperature of medium in which the molecules are moving. As a symptomatic gadget, electrophoresis is immediate, fast and exceedingly fragile. It is utilized sensibly to think the properties of a solitary charged creature type and as a parcel framework.

• Routine electrophoresis.
• High determination electrophoresis
• Polyacrylamide gel electrophoresis
• Capillary electrophoresis.
• Affinity electrophoresis
• Isoelectric focusing
• Immunochemical electrophoresis
• Two-dimensional electrophoresis
• Two-dimensional electrophoresis

Track 7.  Spectroscopy

Spectroscopy is the investigation of the connection among issue and electromagnetic radiation. Generally, spectroscopy started through the investigation of obvious light scattered by its wavelength, by a crystal. Later the idea was extended extraordinarily to incorporate any connection with radioactive vitality as an element of its wavelength or recurrence. Spectroscopic data are regularly spoken to by a discharge range, a plot of the reaction of enthusiasm as an element of wavelength or recurrence. Spectroscopy and spectrograph are terms used to allude to the estimation 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. With respect to the type of radioactive energy, nature of interaction between the energy and the material and the type of material, spectroscopy has many sub-disciplines.

• Electromagnetic Radiation
• De Broglie Waves
• Acoustic Spectroscopy
• Dynamic Mechanical Analysis
• Absorption Spectroscopy
• Emission Spectroscopy
• Elastic Scattering and Reflection Spectroscopy
• Impedance spectroscopy
• Inelastic Scattering Phenomena
• Crompton Scattering
• Coherent or Resonance Spectroscopy
• Atomic Absorption Spectroscopy & Atomic Emission Spectroscopy
• Flame Emission Spectroscopy
• X-Ray Spectroscopy and X-Ray Fluorescence

Track 8. Mass Spectrometry

Mass spectrometry is a scientific strategy that ionizes particles to particles and they can be moved about and controlled by outside electric and attractive fields. The examples are generally presented through a warmed group bay, warmed direct inclusion test, or a gas chromatograph. Ionization Mass Spectrometry (ESI-MS) which has turned into an inexorably critical procedure in the clinical research Centre for basic examination or quantitative estimation of metabolites in a complex organic example.

This method fundamentally thinks about the impact of ionizing vitality on particles. It relies on substance responses in the gas stage in which test particles are expended amid the development of ionic and nonpartisan species.

Applications of Mass Spectrometry:-

• Mass spectrometry imaging
• Data analysis
• Flame ionization (FID)
• Electron capture (ECD)

Track 9. Nuclear Magnetic Resonance Spectroscopy

Nuclear Magnetic Resonance spectroscopy is a scientific science strategy utilized in quality control and research for deciding the substance and virtue of an example and in addition its sub-atomic structure. The standard behind NMR is that numerous cores have turn and all cores are electrically charged. In the event that an outer attractive field is connected, a vitality exchange is conceivable between the base vitality to a higher vitality level. The vitality exchange happens at a wavelength that compares to radio frequencies and when the turn comes back to its base level, vitality is radiated at a similar recurrence. The flag that coordinates this move is estimated from multiple points of view and handled with the end goal to yield a NMR range for the core concerned. Most much of the time, NMR spectroscopy is utilized by physicists and natural chemists to examine the properties of natural atoms, despite the fact that it is pertinent to any sort of test that contains cores having turn.

• Resonant frequency
• Bio-molecular NMR spectroscopy
• Solid-state nuclear magnetic resonance

Track 10.  Environmental Analytical Chemistry

Environmental Analytical Chemistry concentrate on specialization in advanced modern analytical methodology to confront different difficulties in environmental and pharmaceutical industry. The Journal covers zone, for example, analytical instrumentation techniques for remote estimations, assurance of trace atmospheric constituents of anthropogenic and characteristic root, location and ID of natural and inorganic poisons in air, water, soil determination and validation of substantial metals and radionuclides in the environment, diverse technique of chemometrics in ecological examination. Instances of issues which have been tended to by climatic science consolidate destructive rain, ozone consumption, photochemical fumes cloud, greenhouse gases and a global warming. Environmental chemistry includes some points that incorporate astrochemistry, environmental science, ecological demonstration, geochemistry, marine chemistry and pollution remediation.

 

• astrochemistry
• atmospheric chemistry
• environmental modelling
• geochemistry
• marine chemistry
• pollution remediation

Track 11. Thermal Analysis and Glycaemic

A branch of materials science where the properties of materials are considered as they change with temperature is what thermal analysis means. A few techniques are normally utilized – these are recognized from each other by the property which is measured: Dielectric thermal analysis (DEA), dielectric permittivity and loss factor. Types of thermal analysis: Dielectric thermal analysis, Differential thermal analysis, Differential Scanning Calorimetry, Dilatometer, Dynamic Mechanical Analysis, Evolved Gas Analysis, Laser flash analysis, thermo gravimetric analysis, Thermo mechanical Analysis, Thermo-optical analysis and Derivatography.

Glycaemic analysis looks to see how a gathering of glycan identifies with a specific natural event. Glycomes can far surpass proteomes and transcription regarding complexity. Some gauges have set the vertebrate glycome at more than one million discrete structures. Many parts of glycobiology can be seen just with a frameworks level analysis. Glycome changes amid improvement and cancer progression. Many GBPs are oligomerzed on cells and connect with multivalent varieties of glycan’s on restricting cells. Multiple discrete glycan epitopes work in show to draw in two cells or convey a flag from one cell to the next. The accompanying are cases of the usually utilized methods in glycan analysis: High-resolution mass spectrometry and high-performance liquid chromatography. Multiple Reaction Monitoring. Apparatuses for glycoproteins X-beam crystallography and nuclear magnetic resonance spectroscopy for complete structural analysis of complex glycan’s is a troublesome and complex field. However the structure of the coupling site of various lectins, catalysts and other starch restricting proteins has uncovered a wide assortment of the basic reason for glycome work.

• Dielectric thermal analysis
• Differential thermal analysis
• Differential Scanning Calorimetry
• Dilatometer
• Dynamic Mechanical Analysis
• Evolved Gas Analysis
• Laser flash analysis
• thermo gravimetric analysis
• Thermo mechanical Analysis
• Thermo-optical analysis
• Derivatography

Track 12. Advances in Separation Techniques

The procedure of separation is necessary unit activity in the majority of the Modern Pharmaceutical Techniques, substance and different process plants. Among the separation forms, some are standard and customary procedures, similar to, refining Process, retention process, adsorption process, and so forth. These procedures are very normal and the important advancements are all around created and all around examined. Then again, more current separation processes like membrane based methods, super-critical fluid extraction, chromatographic separation, and so on, are picking up significance in present day days plants as novel detachment forms.

• Hyphenated Separation Techniques
• Chromatography as a Separation Technique
• Spectroscopy as Separation Technique

Track 13. Pharmaceutical Analytics

Pharmaceutical Analytics is a strategy or a course of action of methods to recognize or conceivably measure a substance or prescription, the parts of a pharmaceutical game plan or mix or the affirmation of the structures of engineered blends used as a piece of the arrangement of pharmaceutical thing. The pharmaceutical sciences join a far reaching extent of coherent requests stressed over Clinical Exploration, Medication Revelation, Medication Configuration, Medication Conveyance, Medication Activity, Medication Examination, Pharmaco-money related issues, and Administrative Issues. Pharmaceutical sciences are moreover subdivided into a couple of qualities they are Pharmacology, Pharmaco-dynamics, Pharmaco-kinetics, Pharmaceutical Toxicology, Pharmaco-genomics, Pharmaceutical science, Pharmaceutics, Pharmacognosy.

 

• Novel Ways to deal with Expository and Bio-analytical Strategies
• Bio-analytical Systems
• Chromatography and Systems
• Spectroscopic Systems
• Nuclear Attractive Reverberation
• Mass Spectroscopy
• Regulatory Issues and Bio-safety Difficulties in Bio-analysis

Track 14. Applications of Analytical and Bioanalytical Methods

Applications of Analytical and Bioanalytical Methods would discuss more about Chemometrics, marine products, and food science, Advances in micro/nano-bioanalysis, Micro and Nano technologies in bio analysis, Method development and validation reports. Advances in micro/nano-bioanalysis: the recent research stream focuses on the integration of chemical functions using various immobilization or patterning techniques, and fusion with Nano-scale materials/molecules described above or conventional micro analytical techniques such as flow injection analysis, capillary electrophoresis, and micro electrodes. To create valuable micro Bioanalytical devices, such as single-cell analysis devices or high-performance diagnosis devices. Micro and Nano technologies in bio analysis: The current improvement of Bioanalytical techniques including the improvement of exceedingly delicate or selective analytical methods in view of Nano-scale materials/molecules, and the advancement of new analytical tools or methods based on micro/Nano-devices have progressed with remarkable success. Analytical methods development and validation play important roles in the discovery, development, and manufacture of pharmaceuticals. Pharmaceutical products formulated with more than one drug, typically referred to as combination products, are intended to meet previously unmet patients need by combining the therapeutic effects of two or more drugs in one product. These combination products can exhibit overwhelming difficulties to the analytical chemist in charge of the development and validation of analytical methods.

• Chemo-metrics, marine products ,and food science
• Advance in micro / nano – bioanalysis
• Method development and validation reports
• NMR-analysis of small organic molecules Related Conference of Application

Track 15. New Instrumentation and Equipment

Analytical instruments are used in a variety of fields, given their cross-discipline compatibility to analyse samples. Analytical instruments are used not only in the laboratory environment, but also on the field. They include, but are not limited to the following areas: Analytical Chemistry, Clinical Analysis, Environmental Testing, Food & Beverage Analysis, Forensic Analysis, Life Science Research (e.g. metabolomics, genomics, and proteomics), Materials Characterization and Research, Petrochemical Testing, Pharmaceutical Analysis and more. Analytical instrumentation includes those used within spectroscopy, mass spectrometry, electrochemical analysis, thermal analysis, separation analysis, microscopy, and the various hybrid technologies (e.g. GC-MS and HPLC-MS).  Examples of analytical instruments include mass spectrometers, chromatographs (e.g. GC and HPLC), titrators, pectrometers (e.g. AAS, X-ray, and fluorescence), particle size analyser’s, rheometers, elemental analysers (e.g. salt analyser’s, CHN analysers’), and  thermal analysers’.

• titrators
• spectrometers
• particle size analyzers
• rheometers
• elemental analyzers
• hermal analyzers

Liquid chromatography-mass spectrum analysis may be a key analytical technique that mixes the physical division capacities of liquid movement with the mass spectrometry examination abilities of spectrometry analysis. LC-MS framework is used for quick and mass coordinated filtration of characteristic items separates and new atomic substances important to nourishment, pharmaceutical, agrochemical and differing ventures. LC-MS is once in a while utilized as a part of medication advancement which we look at extensive variety of stages like, polluting influence recognizable proof, quantitative Bio-Analysis, and control. FDA has impelled testing of current quality testing of conventional solutions among prescription patients all through medication headway. Conventional Chinese Medicine is a recuperating framework created in China over 2,200 years back, consolidating medications that are now and again. One of its coordinating gauges is to dissipate malevolence and bolster the great Not with standing treating disease, Traditional Chinese Medicine focuses on strengthening the body's safeguards and improving its capacity for recuperating herbs and to look after wellbeing.

• Current quality and regulatory issues associates with traditional medicine
• Current quality and regulatory issues associates with traditional medicine
• Overview of LC-MS bioanalysis related regulations

Track 17. Scope for Analytical Chemist

Analytical chemists use their knowledge of chemistry, instrumentation, computers, and statistics to solve problems in almost all areas of chemistry and for all kinds of industries. For example, their measurements 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 diagnose diseases; and to provide measurements and documentation essential to trade and commerce.

This track is representing Scope for Analytical Chemist Such as Quality control, Production officer, Drug formulation and development, chemical or forensic analysis, Process development.

Analytical chemists use their knowledge of chemistry, instrumentation, computers, and statistics to solve problems in almost all areas of chemistry and for all kinds of industries. For example, their measurements 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 diagnose diseases; and to provide measurements and documentation essential to trade and commerce.

• Quality control
• Production officer
• Drug formulation and development
• Chemical or forensic analysis
• Process development
• Chemo-metrics, marine products ,and food science
• Advance in micro / nano – bioanalysis
• Method development and validation reports
• NMR-analysis of small organic molecules Related Conference of Application

Market Growth of Analytical techniques Research in the last and upcoming ten years:

The global market for advanced analytics totaled $207.4 billion in 2015, and should total nearly $219.3 billion by 2020, a five-year compound annual growth rate (CAGR) of 1.1%, through 2020.

The global radiotherapy market was valued at $6.4 billion in 2016. The market should reach $6.8 billion and $9.2 billion in 2017 and 2022, respectively; growing at a compound annual growth rate (CAGR) of 6.4% from 2017 to 2022.

Apart from the industrial personnel where most of the research work is done, other research communities include: -

• Academicians include Student community.
• Researchers include Post docs, Research Associates.
• Scientists include Professors, Associate professors, and Assistant professor.
• Industries include Presidents, CEO’s, and R&D Managers.

Market Report of Analytical techniques:

• The global bio photonics market should grow from $32.2 billion in 2016, by a five ye
• art compound annual growth rate (CAGR) of 10.8%, to reach nearly $53.8 billion in 2021.
• The of bio photonics to encompass the application of light and other forms of radiant energy, ranging from visible range (e.g., far infrared at around 100 microns) to X-ray (e.g., hard X-rays), primarily to life sciences and medicine.
• The global radiotherapy market was valued at $6.4 billion in 2016. The market should reach $6.8 billion and $9.2 billion in 2017 and 2022, respectively; growing at a compound annual growth rate (CAGR) of 6.4% from 2017 to 2022.
• The global market for photonic sensors and detectors reached nearly $8.1 billion in 2015. This market is expected to increase from nearly $9.3 billion in 2016 to $19.2 billion in 2021 at a compound annual growth rate (CAGR) of 15.7% for 2016-2021.

Growth of Analytical Techniques: Analytical techniques remain un-developed, interest in the field is blasting. The U.S. government conveyed more than a billion dollars to analytical technique inquire about in 2005 to discover new advancements in analytical techniques. The global market for advanced analytics totaled $207.4 billion in 2015, and should total nearly $219.3 billion by 2020, a five-year compound annual growth rate (CAGR) of 1.1%, through 2020.