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Scott A Young
Protein biochemist The Dow Chemical Company USA
Yuhui (Henry) Zhao
Epcor Water Canada, Canada
Roger M Leblanc
University of miami USA
Yeshiva University USA
Alexander a. kamnev
Russia academy of sciences Russia
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ANALYTICA ACTA 2024
- About Analytical Acta 2024 Conference
- Scientific Sessions
- Market Analysis
- Abstract Submission Criteria & Eligibility
- Participation/Presentation Option
- Young Research Award
About Analytical Acta 2024 Conference
Analytical Acta 2024 | July 24-25, 2024 | Paris, France
Conference Series LLC Ltd welcomes you to attend the 25th Conference on Global Summit on Analytical and Bioanalytical Techniques to be held in Paris, France on July 24-25, 2024.
Details of Analytical Acta 2024 Conferences in France:
July 24-25, 2024
The 25th Global Summit on Analytical and Bioanalytical Techniques will be held in Paris on July 24-25, 2024 in Paris, France. Keynote speeches, oral presentations, poster presentations, and exhibitions will also be held in a timely manner. The subject matter of the convention is "shaping the destiny with new studies in analytical chemistry". It provides a platform for the critical analysis of new data, expands the reach of analytical chemists, and exchanges the latest research findings and results on all aspects of bioanalytical and analytical techniques.
The Analytical Conference offers research papers on analytical chemistry expertise from a variety of scientific backgrounds and is open to young researchers and students. The main purpose of the Analytical Techniques Conference is to spread knowledge about analytical and bioanalytical techniques, chromatography, separation techniques, mass spectroscopy, spectroscopy, and spectrometry. With research in both pharmaceutical and life sciences, Analytical 2024 is the perfect place to exchange and develop knowledge on critical analytical techniques and tools. Analytics 2024. deals with the study of all aspects of the substances that make up matter, their properties and reactions, and the use of such reactions to form new substances.
This conference offers analytical chemistry research activities with expertise from a variety of scientific backgrounds and is open to young researchers and students alike. The conference is primarily aimed at disseminating knowledge of life science and industrial analytical techniques. As both the life and industrial sciences require analytical and bioanalytical techniques in their research work, analytical conferences are a great place to exchange and develop knowledge about important analytical tools.
It is my sincere hope that the Analytical Acta 2024 will act as an international platform to meet researchers from all over the world, expand professional contacts and generate new opportunities, including the establishment of new collaborations.
We look forward to seeing you at Analytical Acta 2024
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 to separate, identify, and quantify substances. Separation separates the analytes. Conventional techniques are divided into two strategies of qualitative and quantitative assay strategies. By observing the preparation reaction and its components, the individuality of the specimen can be inferred. Additional reagents are selected to specifically react with one or a single class of mixtures of substances to form a particular reactive element.
Quantitative Testing - Traditional quantitative testing can be divided into gravimetric and volumetric testing. Two strategies use extensive reaction reactions between the analyte and the reagents involved.
- Applied Analytical Chemistry
- Environmental Analytical Chemistry
- Process Analytical Chemistry
- Instrumental Methods
Track 2. Bioanalytical Methodology
Advances in bioanalytical techniques have created a dynamic order in which the future holds many exciting opportunities to support progress. to get a good fraction. Existing objectives are to study the introduction of toxic energy into pharmacokinetics, bioequivalence, and similar pharmacokinetics/pharmacodynamics. Various bioanalytical framework conditions are performed in biological investigations. This review generally includes hyphenated bioscience strategies and tools in evaluating drug biostudies.
- Hyphenation Techniques
- Chromatography Strategies
- Biodiagnostic Procedures for Ligands
Track 3. Polymer Science and Material Science
Made of materials that are essential for progress. for what is to come. Experts in biodegradable plastics, solar cells, light-emitting diodes, control device terminals, arresting devices, and practical tailoring, our field gurus explore the scaffolding, layers, and potentially associated hydrogen storage in finished devices. Explore new common inorganic and polymeric materials with diverse applications.
- Dynamic Mechanical Investigation
- Inverse Electron Echo Spectroscopy
- Differential Filter Calorimetry
- Materials Design Chemistry
Track 4. Chromatography
Chromatography is a laboratory method for separating mixtures. The mixture is dissolved in a liquid called a moving stage and helps it pass through a structure containing another material called a fixed stage. Different components of the mixture move at different speeds, thus separating them. Separation relies on differential refinement between generic and fixed stages. The modest contrast of compound plot coefficients leads to differential maintenance in the stationary phase and in this sense affects the separation. Chromatography is either preparative or analytical. The reason for preparative chromatography is to split a part of the combination for later use, and then it's far a sort of filtration. Exposure chromatography is routinely performed on small amounts of substances and is used to establish the proximity of analytes in a mixture or to estimate general abundance. The two are not completely independent of each other.
- Gas Chromatography
- Thin Layer Chromatography
- Paper Chromatography
- Liquid Chromatography
- Advances in Chromatography and HPLC Technology
Track 5. Electrophoresis
Electrophoresis describes the displacement of charged debris beneath neath the impact of an electric-powered field. The rate of atom generation depends on the nature of the electric field, the magnitude of the net charge, the state of the particles, and the ionic quality, consistency, and temperature of the medium in which the molecules travel. As a symptomatic device, electrophoresis is immediate, rapid, and highly fragile. It is effective for thinking about the characteristics of a single electrified creature type and using it as a pack frame.
Type of electrophoresis:-
- Routine electrophoresis.
- High-Resolution Electrophoresis
- Polyacrylamide Gel Electrophoresis
- Capillary Electrophoresis.
- Affinity electrophoresis
- Isoelectric focusing
- Immunochemical electrophoresis
- Two-dimensional electrophoresis
Track 6. Spectroscopy
Spectroscopy studies the relationship between radiation and electromagnetic radiation. In general, spectroscopy began with the study of the apparent light scattered by a crystal through its wavelengths. This idea has since been greatly expanded to include the relationship with radioactive activity as a component of its wavelength or recurrence. Spectroscopic data are regularly told as the discharge region, which is a diagram of the reaction of enthusiasm as a factor of wavelength or repetition. Spectroscopy and spectrograph are terms used to allude to the estimation of radiant power as a component of wavelength and are regularly used to describe exploratory spectroscopy strategies. Terrible estimating devices are called spectrometers, spectrophotometers, spectroscopes, or otherworldly analyzers. There are many subfields of spectroscopy regarding the nature of radiative energy, the nature of interactions between energy and matter, and the nature of matter.
- Electromagnetic Radiation
- De Broglie Waves
- Acoustic Spectroscopy
- Dynamic Mechanical Analysis
- Absorption Spectroscopy
- Emission Spectroscopy
- Elastic Scâ€‹â€‹altering and Reflection Spectroscopy
- Impedance spectroscopy
- Inelastic Scâ€‹â€‹altering Phenomena
- Crompton Scattering
- Coherent or Resonance Spectroscopy
- Atomic Absorption Spectroscopy & Atomic Emission Spectroscopy
- Flame Emission Spectroscopy
- X-ray Spectroscopy and Fluorescence X-ray Spectroscopy
Track 7. Mass Spectrometry
Mass spectrometry is a scientific strategy that can ionize particles into particles and move and control them via external electric and gravitational fields. Examples are commonly presented by heated group bays, heated direct containment tests, or gas chromatographs. Ionization mass spectrometry (ESI-MS) has become an inexorably important technique in clinical research centers for basic research or quantification of metabolites in complex organic samples.
This method basically deals with the effect of vitality ionization on particles. It relies on material reactions in the gas phase, consuming test particles in the evolution of ionic and neutral species.
Mass Spectrometry Applications:-
- Imaging Mass Spectrometry
- Data Analysis
- Flame Ionization (FID)
- Electron Capture (ECD)
Track 8. Environmental Analytical Chemistry
Environmental Analytical Chemistry focuses on specializing in advanced modern analytical methods to address a variety of issues in the environmental and pharmaceutical industries. This journal covers, for example, analytical instrument techniques for remote estimation, securing atmospheric trace constituents in anthropogenic and characteristic roots, localization and characterization of natural and inorganic toxins in air and water, soil measurements, and environmental studies. covers zones such as essential metals and radionuclide verification. Diverse methods of chemometrics in ecological research. Cases of problems addressed by climate science integrate destructive rains, ozone depletion, photochemical smoke plumes, greenhouse gases, and global warming. Environmental chemistry includes several points such as astrophysics, environmental sciences, ecological demonstrations, geochemistry, ocean chemistry, and pollution remediation.
Track 9. Advances in Separation Techniques
Separation processes are unit activities required in most modern pharmaceutical technologies, substances, and various processing plants. Forms of separation include standard and common methods such as purification, retention, and adsorption. These procedures are very normal and important progress is made and checked around them. On the other hand, new separation processes such as membrane-based processes, supercritical fluid extraction, and chromatographic separation are gaining importance in today's systems as new forms of separation.
- Hyphenated Separation Methods
- Chromatography as Separation Method
- Spectroscopy as Separation Method
Track 10. Pharmaceutical Analytics
Pharmaceutical analysis is a strategy or set of methods for identifying or possibly recognizing, substances or recipes that are part of pharmaceutical schedules or mixtures. Pharmacy participates in a wide range of consistent research focused on clinical research, drug disclosure, drug composition, drug delivery, drug activity, drug research, pharmaceutical company funding issues, and administrative issues. Pharmacy is further divided into several academic disciplines such as Pharmacology, Pharmacodynamics, Pharmacokinetics, Pharmacotoxicology, Pharmacogenomics, Pharmacy, Pharmaceutical Sciences, and Pharmacy.
- Description and New Methods to Address Bioanalytical Strategies
- Bioanalytical Systems
- Chromatography and Systems
- Spectroscopic Systems
- Nuclear Gravity Reverberations
- Mass Spectrometry
- Regulatory Issues and Biosafety Challenges in Bioanalytical
Track 11. New Instrumentation and Equipment
Analytical devices are used in various fields due to their interdisciplinary compatibility with sample analysis. Analyzers are used in the field as well as in laboratory environments. They include areas such as analytical chemistry, clinical analysis, environmental testing, food and beverage analysis, forensic analysis, life science research (metabolomics, genomics, proteomics, etc.), material characterization and research, petrochemical testing, pharmaceutical analysis, etc. will be Analytical instruments including those used in spectroscopy, mass spectrometry, electrochemical analysis, thermal analysis, separation analysis, microscopy, and various hybrid techniques such as GC-MS and HPLC-MS. Examples of analytical instruments include mass spectrometers, chromatographs (such as GC and HPLC), tilt rotors, spectrometers (AAS, X-ray, fluorescence, etc.), particle size analyzers, rheometers, elemental analyzers (such as salt analyzers). , CHN analyzers, etc.). ) and a thermal analyzer.
Track 12. Regulatory Issues and Biosafety Challenges in Bioanalysis
Liquid chromatography-mass spectroscopy has the potential to be an important analytical technique that fuses the physical partitioning power of liquid motion with the mass spectrometry probing power of spectroscopy. LC-MS systems are used for rapid, mass-controlled filtration of unique constituents and new atomic substances of interest to nutritional, pharmaceutical, pesticide, and other industries. LC-MS is sometimes used in drug development, taking into account different stages such as detectable environmental exposures, quantitative bioanalyses, and controls. The FDA has facilitated current quality testing of conventional solutions in ongoing prescription patients' medication. Traditional Chinese Medicine is a healing framework that integrates current medicines created in China over 2,200 years ago. One of its tuning gauges is to disperse malice and enhance great people. Rather than focusing on treating disease, traditional Chinese medicine focuses on strengthening the body's defenses and improving its ability to utilize herbs to provide health.
Track 13. Biopolymers and Biomaterials
In general, biopolymers have received a great deal of attention due to their diverse applications that can address increasing environmental concerns and vitality requirements. The improvement of various biomaterials has also made remarkable progress in the field of repair, and many biopolymers are used in the production of biomaterials. Combining biopolymers and biomaterials presents extraordinary possibilities for new materials, applications, and jobs.
Various studies on biopolymers and biomaterials are presented, along with their results, explanations, and conclusions drawn from the studies. This includes biopolymer combinations, their representations, and potential applications.
Track 14. Analytical Technique for Clinical Chemistry
This track from Analytica explores clinical chemistry. It is a dedicated form of biochemistry (not to be confused with medicinal chemistry, which includes primary research for drug development). This track covers clinical chemistry, clinical endocrinology, clinical toxicology, therapeutic drug monitoring, and blood, and urine It represents the technique of analysis.
Clinical Devices Market Size to be $1,069.7 Billion by 2021 | CAGR: 6.7D
44It is projected to reach US$169.7 million at CAGR.
Track 15. Clinical Diagnostics Equipment and Kits
This session will use diagnostic assays and test kits. An immunochromatographic assay, also known as a lateral flow test or simply a strip test, is a unit of measurement for immunoassays performed in an easy-to-use strip format. The amount of real-time quantitative PCR is much more accurate and less laborious than current qPCR methods. Relatively small sample volumes required, a reasonable level of sensitivity, ease of large-scale manufacturing, stability at final temperature (shelf life), β- as a diagnostic tool for invasive fungal infections D-Glucans: Validation, Drug Development and Performance in Patients with Acute Myeloid Hematologic Cancers.
This track represents the evaluation of HIV/AIDS diagnostic kits, the validation of commercial real-time PCR kits, and the development and validation of diagnostic tests.
DNA & Test Kits Worth $201.9 Billion | CAGR: 54.8 D
44 The Global Test Kits & DNA Vaccines Market Was Valued At $243.7 Million In 2013, $305.3 Million In 2014, 2022 It is projected to grow to $2.7 billion in 2018. This corresponds to the compound annual growth rate (CAGR). 54.8%. Five years from 2014 to 2022.
Track 16. Novel Optical Sensors and Biosensors
New optical sensors and biosensors are devices that use light to detect and measure changes in biological or chemical systems. They are based on the principle of optical spectroscopy and allow sensitive and specific measurements of various parameters such as pH, temperature, and concentrations of biomolecules. Optical sensors and biosensors have many applications in the fields of medicine, environmental monitoring, food safety, and biotechnology. They are commonly used to detect biomarkers of disease, monitor drug interactions, and detect contaminants in food and water. These sensors and biosensors are constantly evolving with the development of new technologies such as plasmonics, nanomaterials, and microfluidics to improve sensitivity, specificity, and miniaturization.
Track 17. Analytical Technique for Thermal analysis
This track describes thermal analysis techniques. Thermal analysis techniques are used in many fields, from pharmacy to polymer science to materials and glass. Most facilities may add a basic report on the material properties of the system under test, so thermal analysis is a useful tool for basic material properties and for industrial and industrial research, development, and quality control We see an increase in their use in both a wide range of applications. Science.
This track represents thermal runaway, thermogravimetric analyzer, calorimetry, and specific heat meter.
Thermal analysis market size CAGR 59.9 billion: 8.2D
Track 18. Innovation in Food Analysis & Testing
Innovation in food analysis and testing refers to the development of new and advanced methods and techniques for detecting and analyzing food contamination, quality parameters, and food ingredients. These methods include spectroscopy, chromatography, mass spectrometry, and DNA-based techniques. Innovations in food analysis and testing are essential to ensuring food safety, quality, and authenticity. It also enables the detection of food fraud and the identification of new food sources and ingredients. In recent years, there has been a growing demand for rapid and non-destructive methods of food analysis, leading to the development of small, portable devices that can be used in the field and in the field.
Track 19. Regulatory issues and Biosafety challenges in bioanalysis
Biosafety regulatory issues and challenges in bioanalysis relate to the ethical, legal, and safety considerations that arise when conducting bioanalytical research and testing. This includes complying with regulations and guidelines set by government agencies such as the FDA and EPA and ensuring the safe handling, storage, and disposal of biological samples and hazardous chemicals. Biosecurity challenges include risks associated with biological agents such as pathogens, toxins, and genetically modified organisms and risks associated with laboratory equipment and procedures. Addressing regulatory issues and biosecurity challenges ensures the integrity and reliability of bioanalytical data, protects the health and safety of laboratory staff, and minimizes potential environmental impact. important for
Track 20. Method development and validation
Method development and validation refers to the process of developing and testing new analytical methods to detect and quantify substances in samples. This includes selecting an appropriate analytical technique, optimizing conditions, and confirming method accuracy, precision, sensitivity, specificity, and robustness. Validation ensures that the method is reliable, reproducible, and suitable for its intended purpose. Method development and validation are essential to ensure the accuracy and reliability of analytical data and are commonly used in fields such as pharmacy, environmental science, and food safety. To maintain the highest standards of accuracy and precision, it is important to regularly evaluate and update our analytical methodologies as new technology and insights become available.
Track 21. Hyphenated Techniques
The hyphenation strategy alludes to a hybrid of at least two methods for isolating and detecting synthetics from their arrangement. The other method is often some form of chromatography. The hyphen method is commonly used in science and organic chemistry. Slices are sometimes used instead of hyphens. Especially if the name of one of the techniques itself contains a hyphen. Examples of hyphenated methods:
- Gas Chromatography-Mass Spectrometry (GC-MS)
- Liquid Chromatography-Mass Spectrometry (LC-MS)
- Liquid Chromatography-Infrared Spectroscopy (LC-IR)
- Chromatography Diode Cluster Detection (LC-DAD)
- Capillary Electrophoresis Mass Spectrometry (CE-MS)
- Capillary Electrophoresis Bright Apparent Spectroscopy (CE-UV)
- Ion Transport Analysis – Mass Analysis
Track 22: Proteomics and its applications
Proteomics is the large-scale study of proteins in biological systems. This involves identifying, characterizing, and quantifying all proteins within a given sample and analyzing their functions, interactions, and modifications. Proteomics has many applications in biomedical research, including the discovery of new biomarkers for disease diagnosis and prognosis, the development of new drugs and therapeutics, and the identification of molecular targets for drug development. It is also used in fields such as agriculture, environmental science, and biotechnology to understand protein expression and function in various systems.
- Mass Spectrometry Proteomics
- Integrating Transcriptomics and Proteomics
- Protein Interactions in Biology
- Proteomics in Biomedical Applications
- Proteomics in Plant and Animal
Track 23: Biochemistry
Chromatography is a method used in laboratories to separate mixtures of components. A solution called the mobile phase dissolves the mixture and transports it through the structure containing the stationary phase. The combination is split because different components move at different speeds in different media.
- Disease prevention
- Food containment
- Plant secondary metabolites
- Nutritional deficiencies
Track 24: Microscopy
Microscopy is the scientific technique of using a microscope to magnify and visualize objects or materials too small to see with the naked eye. This allows researchers to study in detail the structure, composition, and behavior of various materials such as biological samples, minerals, and electronic components. There are various types of microscopes, such as optical microscopes, electron microscopes, and scanning probe microscopes, each with its own advantages and disadvantages. Microscopes are essential tools in many fields such as biology, materials science, nanotechnology, and medicine.
The analytical and bioanalytical techniques industry encompasses a wide range of technologies and methodologies used to analyze and study biological and chemical substances. This includes pharmaceuticals, biotechnology products, food and beverages, environmental samples, and various other materials. The industry plays a crucial role in drug discovery, quality control, research and development, and ensuring product safety and compliance.
Cost of Advanced Equipment: High-end analytical instruments can be expensive, making them less accessible to smaller laboratories or companies with limited budgets.
Complex Sample Analysis: Some samples require complex preparation and analysis techniques, which can be time-consuming and resource-intensive.
Data Interpretation and Standardization: Handling and interpreting large volumes of data generated from sophisticated instruments can be challenging, and ensuring data standardization is crucial for comparability and reproducibility.
Competition: The analytical and bioanalytical techniques industry is highly competitive, with several established companies and new entrants vying for market share.
Miniaturization and Automation: There's a growing trend towards miniaturization and automation of analytical and bioanalytical techniques, which increases efficiency and reduces the consumption of reagents and samples.
Integration of Data Analysis Software: The integration of sophisticated data analysis software with analytical instruments allows for real-time data processing and interpretation, enhancing decision-making processes.
Application in Personalized Medicine: Analytical and Bioanalytical techniques play a crucial role in the field of personalized medicine, helping tailor treatments to individual patient characteristics.
Rise of Omics Technologies: Omics technologies, such as genomics, proteomics, and metabolomics, are becoming more prevalent in research and diagnostics, driving the demand for advanced analytical techniques.
Green Analytical Chemistry: Environmental concerns have prompted the development of greener analytical techniques that reduce waste generation and energy consumption.
The analytical and bioanalytical techniques industry has witnessed steady growth due to increased demand from various sectors like pharmaceuticals, biotechnology, food, and environmental monitoring. Technological advancements, regulatory requirements, and ongoing research and development activities continue to drive the market. However, challenges related to costs, data handling, and competition remain. Embracing automation, integrating data analysis software, and adopting greener practices are some strategies that companies can employ to stay competitive in this
Abstract Submission Criteria & Eligibility
- Presenting authors are responsible for registration, travel, and hotel costs. Note: Those with accepted abstracts will receive an acceptance mail allowing them to register for the conference.
- Abstracts will be compiled and conference books are made available to participants at the conference.
- Any presenter who is unable to attend should arrange for another qualified individual to present the paper/poster in question. If such a change is necessary, please notify our conference team
- Oral paper presentations will have 30-minute time slots and be clustered by theme into sessions. The keynote session will have a 45-minute time slot, the workshop/ special session will have a 60-minute time slot and the symposium will have a 60-minute time slot followed by a 5-minute Q&A session.
- Graduate & Masters's students are eligible to submit their abstracts under the poster and e-poster presentation category.
- PhD students are eligible to submit their abstract under the special YRF (young researcher’s forum), poster and e-poster presentation category. NOTE: YRF category includes short oral presentations, especially for Ph. D. students
- Extended abstract: Submissions should utilize the Abstract Template. Papers submitted in this category may represent original empirical research, theoretical development, reviews, or critiques.
Oral presentation: Oral Presentations may include the topics from researches, theoretical, professional or private practices in a concise manner. Individuals with personal experience are also welcome to present personal experiences or narratives which help others in everyday life. Speakers with a 30-minute slot should plan to speak for 20-25 minutes, and Keynote speakers should plan to speak for 40-45 minutes, with the remaining time to be used for questions and discussion by the Session Chair.
Workshop: For workshop presenters also, the topic of the talk will be the same as an Oral presentation with more specialized techniques and detailed demonstration. The generalized time duration for a workshop presentation is about 45-50 minutes. Interested participants can join with their respective team and present the workshop with their research coordinators with special group waivers on registration.
Poster presentation: Student Poster Competition will be organized at the Analytica Acta-2023 conference is to encourage students and recent graduates to present their original research. Presenters will be given about 5-7 minutes to present the poster including questions and answers. Judges may ask questions during the evaluation of the presentation. This is an opportunity for young scientists to learn about the recent findings of their peers to increase their capacity as multidisciplinary researchers. Poster displays will be in hard copy format of 1x1 M long.
For more details regarding Poster Presentation and Judging Criteria view Poster Presentation Guidelines.
Webinar: The webinar presentation is designed for those interested attendees who cannot join in person due to schedule conflicts or other obligations. In this option, the presenter may record the presentation and their presentation will be presented in the Webinar presentation session.
E-Poster: e-Poster is also similar to the webinar presentation. In this session, their presentation will be published in the form of a poster in the conference website and the presenter abstract will be published in the conference souvenir and journal with DOI.
Exhibition: Analytica Acta-2024 has the opportunity to exhibit the products and services from commercial and non-commercial organizations like Drug manufacturers, Clinical Trial Sites, Management Consultants, Chemists, Pharmacists, Business delegates and Equipment Manufacturers.
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'Once again it is an honour to welcome you all to the upcoming “25th Global Summit on Analytical and Bioanalytical techniques” scheduled on July 24-25, 2024 in Paris, France'
Young Research Award
Prestigious Award for Young Research’s at Analytica Acta 2024– “Bioanalytical Methods in Pharmaceutical Research and Development”
Analytica Acta 2024 Committee is glad to announce “25th Global Summit on Analytical and Bioanalytical Techniques” on July 24-25, 2024 in Paris, France focusing on the theme: “Bioanalytical Methods in Pharmaceutical Research and Development” Analytica Acta 2024 developments are maintaining their momentum. Analytica Acta Conference program delves into strategic discussions.
Analytica Acta 2024 Young Scientist Awards:
Analytica Acta 2024 Committee is intended to honour prestigious award for talented Young researchers, scientists, Young Investigators, Post-Graduate students, Post-doctoral fellows, Trainees, Junior faculty in recognition of their outstanding contribution towards the conference theme. The Young Scientist Awards make every effort in providing a strong professional development opportunity for early career academicians by meeting experts to exchange and share their experiences on all aspects of Analytica Acta.
Young Research’s Awards at Analytica Acta 2024 for the Nomination: Young Researcher Forum - Outstanding Masters/Ph.D./Post Doctorate thesis work Presentation, only 25 presentations acceptable at Analytica Acta 2024 young research forum.
- Young Scientist Award recongination certificate and memento to the winners.
- Our conferences provide best Platform for your research through oral presentations.
- Learn about career improvement with all the latest technologies by networking.
- Young Scientists will get appropriate and timely information by this Forum.
- Platform for collaboration among young researchers for better development.
- Provide an opportunity for research interaction and established senior investigators across the globe in the field.
- Share the ideas with both eminent researchers and mentors.
- It’s a great privilege for young researchers to learn about the research areas for expanding their research knowledge.
- Young Investigators, Post-Graduate students, Post-doctoral fellows, Trainees, Junior faculty with a minimum of 5 years of research experience
- Presentation must be into scientific sessions of the conference.
- Each Young Researcher / Young Scientist can submit only one paper (as first author or co-author).
- Age limit-Under 35yrs
All submissions must be in English.