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Analytical Conf 2023

About Conference

Conference series welcome all the participants globally to the upcoming conference “3rd International Conference on Analytical Chemistry” scheduled on December 07-08, 2023 which will take place in Prague, Czech Republic. This conference mainly focuses on the theme “Recent Advancements in Analytical Chemistry”.

Analytical Conf 2023 aims to provide a forum for researchers from various fields of the chemical industry, food analysis, pharmacogenomics research, phytochemical analysis, method development, and validation by providing a platform for critical analysis of new data, scope for analytical chemists, and to share latest cutting-edge research findings and results about all aspects of Analytical chemistry. We really believe that this event will act as a global forum for researchers from different countries to network, expand professional ties, and forge new connections that may lead to future collaborations.

Why to attend?

It is a forum where people from all around the world may discuss the advantages, uses, and benefits of analytical chemistry. Some of the additional motives include delivering a paper, networking for new partnerships, learning outside of your area of expertise, discovering answers, expressing your opinions, and publication.

Young Researchers Opportunity:

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.
  • Clearing your inhibitions of adjusting to the foreign environment.
  • Providing a holistic experience of academic tourism.
  • Publishing research profile worldwide with open access journals.

Target Audience:

  • Chemists
  • Chemical Engineers
  • Research Scholars in Pharmaceutical Sciences
  • University Academicians
  • R&D Heads of industries
  • Doctors
  • Pharmacologists
  • Clinical researchers
  • Healthcare professionals
  • Lab Technicians
  • Business Entrepreneurs
  • Pharmaceutical Associations & Societies
  • Industrialists
  • Marketing Executives
  • Students

Sessions & Tracks

Track 1: Analytical Chemistry and Methodology

Analytical Chemistry is the wisdom of attaining, handing out, and interactive information about the composition and structure of matter. Analytical chemistry investigates and uses accoutrements and styles used to insulate, classify, and quantify matter. In practice parting, identification or quantification may set up the entire analysis or be combined with another system. Separation isolates analytes. Traditional ways are subdivided into two strategies the qualitative and the quantitative strategy for examination.

Track 2: Polymer Science and Material Science

The fields of polymer science and material science are staffed by experts and researchers who focus on creative, interdisciplinary solutions for components, systems, and effects beginning from the infinitude position. Advancements in preparing for the future depend on the reveal of new accessories. Masters in our area of expertise are coordinating and examining new common, inorganic, and polymeric components that can be connected in recyclable plastics, solar-powered cells, light-emitting diodes, control device outposts, charming components, deplete fabrics, layers, hydrogen-amassing systems, and various operations.

  • Dynamic Mechanical Investigation
  • Electron Turn Reverberation Spectroscopy
  • Fluorescence
  • Differential Filtering Calorimetry
  • Materials Designing

Track 3: Bioanalytical Methodology

The development of bioanalytical methods revealed a dynamic order for which the future provides a wealth of thought-provoking opportunities to support advancements. Gaining a quantitative understanding of the drug and its metabolites is the typical outcome of bio-investigation in the pharmaceutical domain. The goal of existence is to demonstrate pharmacokinetics, toxic energy, bioequivalence, and preface response, which pharmacodynamics and pharmacokinetics study. Biological investigations result in vivid bioanalytical outlines. In evaluating the bio-examination of the medications, this review generally structures the piece of bio-scientific techniques and hyphenated prejudice.

Track 4: Chromatography

Chromatography is a laboratory technique for determining a blend's neutrality. The mixture is broken down in a liquid known as the transmittable stage, which aids it in passing through a structure allocated another substance known as the stationary stage. The many components of the mixture move with colourful velocity, insulating them. Normal variations in an emulsion's parcel measure have an impact on the detachment and discriminational conservation on the stationary stage. Chromatography can be used as a screening or research tool. Preliminary chromatography, which is now a form of filtration, is used to isolate the sections of a mixture for later use.

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

Track 5: Biopolymers and Biomaterials

The main reason why biopolymers are receiving so much attention is due to their unconventional functions, which can deal with pressing environmental concerns and heavy weights. The creation of colourful bio-polymers is utilised to create colourful bio-materials, which is making important advancements in the realm of usefulness. Biopolymers and biomaterials work together to create an unmatched possibility for new tools, processes, and professions.

Track 6: Mass Spectrometry

The scientific method of mass spectrometry ionises the elements into particles that can be manipulated and controlled by external electric and attractive fields. A warmed group bay, take to direct inclusion test, or gas chromatograph are typically used to present the cases. Ionization mass spectrometry (ESI-MS), which has quickly evolved into a crucial procedure in the clinical research centre for fundamental analysis or quantifiable estimation of metabolites in a complicated chemical example, is one such method.

Applications of Mass Spectrometry:-

Track 7: Advances in Separation Techniques

In most of the Modern Pharmaceutical Techniques, component, and diverse process plants, the process of separation is a crucial unit activity. Among the separation techniques, some are common and established practises including refining, retention, adsorption, and so on. These methods are fairly common, and the significant advancements have been made and thoroughly scrutinised everywhere. On the other hand, more modern methods of separation, such as those based on membranes, super-critical fluid extraction, chromatographic parting, and so on, are being used as new separation forms in modern plants.

Track 8: Thermal Analysis

Thermal analysis is a part of accoutrements knowledge that takes into account the effects of components as they alter with temperature. Usually, multiple processes are established, and the quality being measured distinguishes them from one another. Dielectric permittivity, loss factor, and dielectric thermal analysis (DEA). Thermal analysis techniques Developed Gas Analysis, Ray Flash Analysis, Thermo Gravimetric Analysis, Dielectric Thermal Analysis, Differential Thermal Analysis, Differential Scanning Calorimetry, Dilatometer, Thermo Mechanical Analysis, Thermo-Optical Analysis, and Derivatography are some examples of the thermal analysis techniques.

  • Dielectric thermal analysis
  • Differential thermal analysis
  • Differential Scanning Calorimetry
  • Dilatometer
  • Dynamic Mechanical Analysis
  • Evolved Gas Analysis

Track 9: Nuclear Magnetic Resonance Spectroscopy

Nuclear Magnetic Resonance spectroscopy is a rigorous scientific technique used in quality control and research to identify an example's constituent and asset as well as its subatomic structure. Many cores have turned and all cores are electrically charged, which is common for NMR. The vitality exchange takes place at a wavelength similar to radio frequencies, and when the turn returns to its initial level, the vitality is emitted at a corresponding reappearance. NMR spectroscopy is frequently used by physicists and natural chemists to examine the characteristics of natural atoms, but it can be used for any test that involves cores turning.

Track 10: Scope for Analytical Chemistry

Analytical chemists use their expertise in chemistry, equipment, computers, and statistics to solve problems for a wide range of companies and in nearly all chemistry-related fields. For instance, their measurements are used to ensure the safety and quality of food, medicines, and water; to ensure adherence to environmental and other regulations; to support the legal process; to aid in the diagnosis of diseases by physicians; and to provide measurements and documentation that are crucial to trade and commerce.

This track outlines the range of responsibilities an analytical chemist might have, including quality control, production management, drug development, chemical or forensic analysis, and process development.

  • Quality control
  • Production officer
  • Drug formulation and development
  • Chemical or forensic analysis
  • Process development

Track 11: Electrophoresis and its Principle

Diffuse particles are moved in relation to a fluid during electrophoresis under the control of a fixed electric field. Anaphoresis is the name given to the electrophoresis of negatively charged particles, whereas cataphoresis is the name given to the electrophoresis of positively charged particles. An electrophoretic is made up of an anode and a cathode, two electrodes with opposing charges, linked by an electrolyte, a conducting liquid. Because different ions move differently in an electric field and can be separated in this way, electrophoresis takes advantage of this property.

Track 12: Environmental Analytical Chemistry

Environmental Analytical Chemistry concentrates on specialisation in cutting-edge contemporary analytical methodology to address a variety of challenges in the pharmaceutical and environmental industries. The Journal covers a wide range of topics, including analytical instrumentation techniques for rem estimations, assurance of trace atmospheric constituents of anthropogenic and characteristic origin, location and identification of natural and inorganic toxins in air, water, and soil, and various techniques of chemo metrics in ecological examination. Examples of problems that climate science has addressed include damaging rain, ozone depletion, photochemical fumes cloud, greenhouse gases, and global warming. Astrochemistry, environmental science, ecological demonstration, geochemistry, marine chemistry, and pollution remediation are some of the areas that are concentrated in environmental chemistry.

  • Environmental chemistry
  • Astrochemistry
  • Geochemistry
  • Analytical chemistry

Track 13: New Instrument and Equipment

In chemical, pharmaceutical, clinical, food-processing, and oil refinery laboratories as well as other settings, a wide range of equipment are employed for analytical purposes. Analytical tools aid in material and composition evaluation. There are many different types of analytical equipment, such as mass spectrometers, chromatographs (such as gas chromatography and high performance liquid chromatography), titrates, spectrometers (such as X-ray, fluorescence, and AAS), particle size analysers, rheometers (which measure the flow and deformation of matter), elemental analysers (such as salt analysers, CHN analysers, and thermal analysers), and others

  • New trends in the analytical determination of contaminants
  • NMR analysis of natural samples
  • Preparation automation for gas chromatography injection
  • Laboratory and industrial instrumentation
  • Analytical instruments for nanomaterial study

Track 14: Pharmaceutical Analytics and Its Role

Pharmaceutical analytics is traditionally understood to be analytical chemistry that works with pharmaceuticals as both pharmaceutical formulations and bulk drug compounds. However, other disciplines of analytical chemistry, such as bioanalytical chemistry, drug metabolism research, and analytical chemistry, are also used in academia and the pharmaceutical sector. The pharmaceutical industry's drug development process is a protracted one that frequently lasts longer than a decagon from the beginning of a research project to the release of a drug onto the market.

Track 15: Spectroscopy and its Types

Physical and analytical chemistry use spectroscopy because atoms and molecules have a specific sort of spectrum. Therefore, these spectra can be helpful for analysis, identification, and detection of the data about the atoms and molecules. The phrases "spectroscopy" and "spectrogram," which refer to the identification of radiation force as a component of wavelength, are frequently used to describe exploratory spectroscopic techniques. Spectra-photometers, spectrometers, spectrographs, and unearthly analysers are all terms used to refer to horrifying estimating devices.

  • Flame emission spectroscopy
  • Absorption spectroscopy
  • Electromagnetic radiation
  • IR and NIR spectroscopy
  • Emission spectroscopy

Track 16: Applications of Analytical Chemistry

Environmental analytical chemistry focuses on the development of analytical techniques that can be applied to environmental chemistry issues, such as environmental observation, research of the composition of effluent contaminants and water, and environmental observations. In order to generate completed goods of an acceptable standard, process analytical technologies make use of the qualities of raw materials, manufacturing parameters, process observation, and chemometric techniques. PAT's primary goal is to instantly produce product nature information. Then, using the same equipment and maybe utilising light interaction, heat interaction, electric fields, or magnetic fields, a qualitative and quantitative audit can be carried out.

  • Metabolites analysis
  • Forensic analysis
  • Thermo gravimetric
  • Environmental analysis
  • Calorimetry
  • Research in genetic fingerprinting

Track 17: Nano Photonics

Metallic components that can focus and transfer light through surface plasmon polaritons are frequently used in Nano photonics. High peak intensities can be achieved by compressing a certain amount of light energy into a smaller and smaller volume using Nano photonics. This is mostly useful in nonlinear optics; surface-enhanced Raman scattering is one example. In contrast to conventional spectroscopy techniques, which average over millions or billions of molecules, it also enables sensitive spectroscopic assessment of even single molecules positioned in the hot-spot.

Market Analysis

The global wireless connectivity market should reach $130.6 billion by 2026 from $65.2 billion in 2021 at a compound annual growth rate (CAGR) of 14.9% for the forecast period of 2021 to 2026.

Wireless technology is a part of our lifestyle; it can be found everywhere from refrigerators and AC units to smartphones, thermostats, smart watches, cars and airplanes. It also plays a crucial role in today's communications, and new types of wireless technology will become increasingly important in emerging applications such as robots, drones, self-driving vehicles and new medical equipment during the next five years.

Industries around the world use wireless networks to monitor various processes and operations. Distributed platforms having wireless communication and control capabilities are known as wireless networks. Sensors, transmitters, input/output modules and switches that are utilized in industrial facilities as part of automation and to gather information on particular machine components and activities are referred to as industrial wireless instrumentation. These products use Bluetooth, LoraWAN, Zigbee and Wi-Fi as wireless technologies.

Due to various technological developments and the on-going development of wireless networks and installation flexibility, wireless industrial instrumentation offers a lot of promise to improve monitoring and control of industrial processes.

  • IFT229A Global Wireless Connectivity Market.
  • IFT236A 5G Infrastructure Market.
  • IAS094C Smart Machines: Technologies and Global Markets.
  • IAS176A Industrial Wireless Instrumentation: Global Markets.

Past Conference Report

2nd International Conference on Analytical Chemistry organized by Conference Series in Paris, France during October 24-25, 2022 and was based on the Theme- Modern Exploration Technologies in Analytical Chemistry.

On behalf of our Organizing Committee, we would like to extend our appreciation for continued support and active participation of the Organizing Committee Member, Keynote Speakers and our Moderators for the successful completion of the Analytical Conf 2022.

The Chemists and Chemical Engineers, Clinical researchers, Research Scholars in Pharmaceutical Sciences, Healthcare professionals and Research Scholars in Pharmaceutical Sciences, University Academicians and Students from different countries actively participated in the Conference, discussed the most important trends and issues in Analytical Chemistry. Every Participant was having great reviews and had amazing experiences from the event.

Analytical Conf 2022 was started by the opening ceremony which was followed by the Keynote speech and we are overwhelmed with their presence and generous response.

We would like to take the privilege to felicitate our keynote Speakers and honourable guests for their prominent contribution towards the smooth functioning of this esteemed event.

The eminent personalities at the conference were:

Renat Khatmullin | Middle Georgia State University | USA

Jorge Teno Diaz | Carlos III University of Madrid | Spain

Lars Baltzer | Uppsala University | Sweden

Véronique Jubera | University of Bordeaux, ICMCB-CNRS | France

Elena Voloshina | Humboldt University of Berlin | Germany

Donglu Shi | Tongji University | China

In the last, we would also like to extend my ward regards to various delegate experts, Company representatives, eminent personalities who supported the Conference by facilitating active discussion forums. We would like to convey our sincere gratitude to all the supporters from Editorial Board Members of our Open Access Journals, Keynote Speakers, Honourable guests, Valuable Speakers, Students, delegates and special thank s to Media Partners  for their promotions to make this event a successful one.

With the unique feedbacks from the Conference Analytical Conf 2022, we would like to announce the commencement of the “3rd International Conference on Analytical Chemistry” which is going to be held during December 07-08, 2023 Prague, Czech Republic.

Let us meet again @ ANALYTICAL CONF 2023

To Collaborate Scientific Professionals around the World

Conference Date December 07-08, 2023

For Sponsors & Exhibitors

Speaker Opportunity

Past Conference Report

Supported By

Pharmaceutical Bioprocessing Journal of Pharmaceutics & Drug Delivery Research International Journal of Drug Development and Research

All accepted abstracts will be published in respective Conference Series International Journals.

Abstracts will be provided with Digital Object Identifier by