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4th International Conference on Food Chemistry & Nutrition (CSE) A

4th International Conference on Food Chemistry & Nutrition

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Food Chemistry 2020

Details of Food Chemistry 2020 Conference in Canada:
Conference Name Place Date
Food Chemistry 2020 Vancouver, British Columbia, Canada July 26-27, 2020

Conference Series LLC Ltd successfully completed the first International Conference on Food Chemistry and Hydrocolloids during August 11-12, 2020 at Toronto, Ontario, Canada and 2nd International Conference on Food Chemistry & Nutrition during July 24-26, 2020 at Vancouver, Canada and 3rd International Conference on Food Chemistry & Nutrition during May 16-18, 2020 at Montreal, Canada. With the successful completion of three annual conferences, Conference Series LLC Ltd is announcing the 4th International Conference on Food Chemistry & Nutrition at Vancouver, Canada during July 26-27, 2020.

Conference Series LLC Ltd organizes 2000+ Global Events inclusive of 1000+ Conferences, 600+ Workshops and 400+ symposiums on various topics of Science and Technology across the globe with support from 1000 more scientific societies and Publishes 750+ Open access journals which contains over 50000 eminent personalities, reputed Scientists as editorial board members. Conference Series LLC Ltd scientific events are the special designed cluster of program that provides a common platform where industry meets academia to discuss the recent issues and happening. It serve as a bridge between researchers from academia and industry enhanced by its well organized scientific sessions, plenary lectures, poster presentations, world class exhibitions, diverse symposiums, highly enriched workshops and B2B meetings.

This Food Chemistry 2020 conference will focus on the theme “”. So this is a valuable and important platform for inspiring international and interdisciplinary exchange of food and nutrition research. This food conference will focus on chemical components of food, their nutritional, sensory, flavour, microbiological and physiological aspects; changes in chemical and biochemical composition and structure during processing, transportation and storage; chemical aspect of food safety and quality, other by-products, and processing wastes; chemistry of agro chemicals, food additives and contaminants, along with their metabolism and toxicology, etc.

The Conference will bring together academicians, chemists, scientists, dieticians, nutritionists, engineers, technologists from all over the world to exchange their knowledge and experience on food and nutrition research. We hope you will join us at Vancouver, Canada for a fantastic networking experience.

Session & Tracks

Track 1: Chemistry of Food 

Food chemistry is the investigation of synthetic procedures and cooperation of the organic and non-biological parts of sustenance's. It covers with organic chemistry in that it manages the parts of nourishment, for example, sugars, lipids, proteins, water, vitamins, and dietary minerals. Furthermore, it includes the investigation and improvement of nourishment added substances that can be utilized to safeguard the nature of sustenance or to alter its shading, flavor, and taste. It is, subsequently, firmly connected to nourishment handling and readiness strategies. There is, in any case, a progressing banter about the wellbeing impacts of various nourishment additives. 

Track 2: Technology in Food Chemistry

Food Technology is a part of sustenance science that arrangements with the creation form that make sustenance's. Early logical examination into nourishment innovation focused on sustenance safeguarding. Nicolas Appert’s advancement in 1810 of the canning procedure was a definitive occasion. The procedure wasn't called canning at that point and Appert did not by any stretch of the imagination know the guideline on which his procedure worked, yet canning has majorly affected nourishment protection methods.

Louis Pasteur's examination on the deterioration of wine and his depiction of how to stay away from waste in 1864 was an early endeavor to apply logical information to nourishment dealing with. Other than examination into wine waste, Pasteur explored the generation of liquor, vinegar, wines and lager, and the souring of drain. He created sanitization—the way toward warming milk and drain items to crush sustenance deterioration and ailment delivering living beings. In his investigation into sustenance innovation, Pasteur turned into the pioneer into bacteriology and of current preventive pharmaceutical.

Track 3: Food Processing, Preservation and Packaging

Food processing is the change of agrarian items into nourishment, or of one type of nourishment into different structures. Nourishment preparing incorporates numerous types of handling sustenance's, from crushing grain to make crude flour to home cooking to complex modern techniques used to make comfort foods. Primary sustenance handling is important to make most nourishment's palatable and optional nourishment handling transforms the fixings into recognizable sustenance's, for example, bread. Tertiary sustenance preparing has been scrutinized for advancing over nourishment and heftiness, containing excessively sugar and salt, too little fiber, and generally being unhealthful.

Track 4: Food safety, security and Sustainability

Food security is a condition identified with the accessibility of nourishment, and people's availability and moderateness to it. There is proof of being used more than 10,000 years back, with focal experts in developments antiquated China and old Egypt being known to discharge sustenance from capacity in the midst of starvation. At the 1974 World Food Conference the expression "nourishment security" was characterized with an accentuation on supply. Sustenance security, they stated, is the "accessibility consistently of satisfactory, feeding, differing, adjusted and moderate world nourishment supplies of fundamental foodstuffs to maintain an enduring development of sustenance utilization and to balance vacillations underway and prices".[1] Later definitions added request and access issues to the definition. The last report of the 1996 World Food Summit expresses that sustenance security "exists when all individuals, consistently, have physical and financial access to adequate, sheltered and nutritious nourishment to meet their dietary needs and sustenance inclinations for a functioning and solid life.

Track 5: Food Analysis and Quality Control

Food analysis is the control managing the advancement, application and investigation of explanatory strategies for describing the properties of nourishment and their constituents. These diagnostic techniques are utilized to give data about a wide range of attributes of nourishment's.
Quality control, or QC for short, is a procedure by which substances survey the nature of all elements engaged with creation. ISO 9000 characterizes quality control as "A piece of value administration concentrated on satisfying quality prerequisites.
This methodology puts an accentuation on three perspectives (revered in guidelines, for example, ISO 9001).
Elements, for example, controls, work administration, characterized and all around oversaw processes,[4][5] execution and trustworthiness criteria, and recognizable proof of records.
Competence, for example, information, aptitudes, experience, and capabilities
Soft components, for example, work force, honesty, certainty, authoritative culture, inspiration, solidarity, and quality connections. Review is a noteworthy part of value control, where physical item is inspected outwardly (or the final products of an administration are dissected). Item assessors will be given records and depictions of inadmissible item imperfections, for example, breaks or surface flaws for instance.

Track 6: Recent Innovation in Food Chemistry

Different new conventional and current advancements have been created to deliver the proficient nutritious nourishment and sustenance elements for the wellbeing sustenance details. Late innovation in Food science assumes the indispensable job in changing over the supplement data identified with the client requests in nourishment items. To build up the sustenance with high heath esteem without irritating their flavor, surface, appearance a wide cluster nourishment handling and modern systems must be utilized. These days numerous effective undertakings in sustenance recuperation have been performed for the cost minimization and improvement of nourishment items.

Track 7: Probiotics and Prebiotics

The live microbial greenery present inside the Human stomach related track keeping the stomach related organ framework solid is characterized as Probiotics. Because of expanded utilization of disease related anti-microbial, the gainful micro biome present inside the stomach related gut likewise gets influenced. In any case, on account of the probiotics supplements, the prebiotics which supplements the useful micro biome and jam the advantageous microbial verdure. Probiotics are by and large talked or characterized regarding microscopic organisms and yeasts, comprehensively the strains Lactobacillus, Bifid bacterium and Saccharomyces. Probiotics offer challenges for mechanical applications. The probiotic thought is keen on piles of different applications in a colossal combination of fields huge for human and creature prosperity. Probiotic things include different mixes, vitamins, cases or tablets and some aged sustenance’s contain microorganisms which impact sly affect the quality of the host. They can contain one or a couple of kinds of probiotic microorganisms. For the most part probiotic things headed for human usage is as matured deplete or given in powder or tablet frames. These containers and tablets are not used for therapeutic applications yet rather as prosperity supporting things. The oral usage of probiotic microorganisms conveys a protective effect on the gut vegetation. Distinctive investigations suggest that probiotics have valuable ramifications for microbial confusion of the gut; anyway it is really hard to demonstrate the clinical effects of such things. The probiotic game plans used for pioneer's loose bowels, hostile to contamination looseness of the bowels and intense the runs give the idea that they have a positive helpful effect.

Track 8: Food Waste Management, Public Health And Food Safety

Food waste or nourishment misfortune is nourishment that is disposed of or lost uneaten. The reasons for nourishment waste or misfortune are various and happen at the phases of creating, handling, retailing and devouring. Worldwide nourishment misfortune and waste add up to between 33% and one-portion of all sustenance delivered. Misfortune and wastage happen at all phases of the sustenance store network or esteem chain. In low-wage nations, most misfortune happens amid generation, while in created nations much nourishment – around 100 kilograms for every individual every year – is squandered at the utilization arrange.

Track 9: Nutraceuticals

Nutraceuticals is a broad umbrella term that is used to describe any product derived from food sources with extra health benefits in addition to the basic nutritional value found in foods. A functional food for one consumer can act as a nutraceutical for another consumer. Examples of nutraceuticals include fortified dairy products (e.g., milk) and citrus fruits (e.g., orange juice. Several naturally derived food substances have been studied in cancer therapies.

Track 10: Chemical Composition of Food and chemical Additives Of Food

The diverse types of emulsifier lecithin – powder, two distinctive fixation fluids, granular and powder lecithin. Nourishment added substances will be substances added to sustenance to protect flavor or improve its taste, appearance, or different characteristics. A few added substances have been utilized for a considerable length of time; for instance, saving nourishment by pickling (with vinegar), salting, likewise with bacon, protecting desserts or utilizing sulfur dioxide similarly as with wines. With the coming of prepared nourishments in the second 50% of the twentieth century, numerous more added substances have been presented, of both characteristic and fake cause. Sustenance added substances likewise incorporate substances that might be acquainted with nourishment in a roundabout way (called "aberrant added substances") in the assembling procedure, through bundling, or amid capacity or transport.

Track 11: Food Microbiology and Its Toxicology

Food microbiology is the investigation of the microorganisms that hinder, make, or sully nourishment, including the investigation of microorganisms causing sustenance decay, pathogens that may cause malady particularly if sustenance is inappropriately cooked or put away, those used to deliver matured nourishment's, for example, cheddar, yogurt, bread, lager, and wine, and those with other valuable jobs, for example, creating probiotics.

Track 12: Biotechnology and Nanotechnology In Food

Nano-biotechnology, bio-nanotechnology, and Nano biology are terms that allude to the convergence of nanotechnology and biology. Given that the subject is one that has just developed as of late, bio nanotechnology and Nano biotechnology fill in as cover terms for different related advancements. This order demonstrates the merger of organic research with different fields of nanotechnology. Ideas that are improved through Nano biology include: Nano devices, (for example, organic machines), nanoparticles, and Nano scale wonders that happens inside the order of nanotechnology. This specialized way to deal with science enables researchers to envision and make frameworks that can be utilized for natural research. Naturally roused nanotechnology utilizes organic frameworks as the motivations for advancements not yet created. However, similarly as with nanotechnology and biotechnology, bio-nanotechnology has numerous potential moral issues related with it.

Track 13: Chemical Fermentation Technology

Fermentation has been utilized for quite a long time to make sustenance items more elegant and longer-enduring. Today it is likewise utilized as a practical option for the generation of particular synthetic concoctions and sustenance fixings which are as yet being made with engineered, fossil-based procedures. Wageningen Food and Bio-based Research has a solid reputation on maturation innovation for sustenance items and synthetic compounds. With our exceptional lab-to-pilot approach we offer organizations novel chances to locate the most savvy course to a given maturation process.

Track 14: Environmental Impacts on Food Production And Consumption

Food production contributes, for example, to climate change, eutrophication and acid rain, as well as the depletion of biodiversity. It is also a considerable drain on other resources, such as nutrients, land area, energy, and water. In Finland, approximately half of the amount of both phosphorus and nitrogen that ends up in the Baltic Sea due to human activity is attributable to agriculture. Farming techniques have evolved, and the use of fertilizers has decreased considerably during the last few decades. Despite this, there appears to be no decrease in nutrient loading attributable to agriculture. The Natural Resources Institute Finland is developing new solutions for improving production techniques, maximizing the use of by-products, and minimizing waste in order to reduce the nutrient loading attributable to production. The aim of the Natural Resources Institute Finland is to find ways of mitigating the environmental and climatic impacts of food production.

Track 15: Food Drug Interaction

A drug interaction is notices to the substance which influences the action of a medication, i.e. the impacts are expanded or diminished, or they create another impact that neither items by their own. These associations happen when your sustenance and drug hinder with each other. Associations among nourishment and medications may accidentally abatement or increment the medication impact.

AGENDA 20204

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2020 Upcoming Soon
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Day 1 May 16, 2020

CONFERENCE HALL: MERCHANTS VILLA 2
09:20-09:50 Registrations
09:50-10:10 Opening Ceremony
Keynote Forum
10:10-10:40 Introduction by Moderator
10:40-11:10 Title: Innovative food processing on food chemistry, food bioactive composition and
public health nutrition
Ozlem Tokusoglu, Celal Bayar University, Turkey
Panel Discussion
Networking & Refreshment Break 11:10-11:30
11:30-12:00 Title: Novel approaches to sterilize foods
Gustavo V. Barbosa-Cánovas, Washington State University, USA
12:00-12:30 Title: The future of food: Evidence-based science for the natural products Industry
V A Shiva Ayyadurai, CytoSolve Inc., USA
12:30-13:00 Title: Optimal nutrition for better cognitive function and healthy brain aging
Yuanlong Pan, Nestlé Purina Research, USA
Panel Discussion & Group Photo
Lunch Break 13:00-13:45
Sessions:
Food Science and Technology | Food Nanotechnology | Hydrocolloids in Food Industry | Chemical
Composition of Food | Nutritional Disorder Management
Session Chair: Ozlem Tokusoglu, Celal Bayar University, Turkey
Session Co-chair: Yuanlong Pan, Nestlé Purina Research, USA
Session Introduction
13:45-14:10
Title: Mathematical modeling of the chemical and sensory changes within almonds throughout
storage
Adrian L Kerrihard, Montclair State University, USA
14:10-14:35
Title: The design of peptide-based hydrogels and the characterization of their physiochemical
and release kinetic properties for applications in austere food environments
Nicole Favreau-Farhadi, US Army Natick Soldier RDE Center, USA
14:35-15:00
Title: Particle formation using supercritical fluid technology to enhance the quality and health
benefits of lipophilic bioactive compounds
Ozan N Ciftci, University of Nebraska-Lincoln, USA
15:00-15:25 Title: Essential chemicals in kale can be altered by natural amendments
Lord Abbey, Dalhousie University, Canada
15:25-15:50
Title: Extraction techniques of anti-nutritive and toxic factors in the leaves of the white
flowering Nerium oleander L.
K.G. Kgosana, Agricultural Research Council, South Africa
Panel Discussion
Networking & Refreshment Break 15:50-16:15
16:15-16:40 Title: The right to food and nutrition security
Sakhidad Abrar, UN Women, Afghanistan
16:40-17:05 Title: Whey protein based microencapsulation of bioactive compounds and probiotics
Mingruo Guo, The University of Vermont, USA
Panel Discussion

Day 2 May 17, 2020
CONFERENCE HALL: MERCHANTS VILLA 2
Keynote Forum
09:45-09:55 Introduction by Moderator
09:55-10:25 Title: Black raspberries in cancer clinical trials: Past, present and future
Gary D Stoner, The Ohio State University, USA
Panel Discussion
Networking & Refreshment Break 10:25-10:45
10:45-11:15 Title: Novel and underutilized plant proteins for food security
Anne Pihlanto, Natural Resource Institute Finland, Finland
11:15-11:45 Title: Rethinking the link between environment, nutrition, human Immunity, AIDS and
cancer– A possible game changing perspective from Kenya and beyond
Charles F L Mbakaya, Rongo University, Kenya
Workshop
11:45-12:30 Title: Breaking the ice with nonthermal processing
Gustavo V. Barbosa-Cánovas, Washington State University, USA
Panel Discussion
Lunch Break 12:30-13:15
13:15-14:00
Title: Agri-food chain wastes and food by-products: Importance on nutri food chemistry and
anticarcinogenity
Ozlem Tokusoglu, Celal Bayar University, Turkey
Sessions:
Food Preservatives and Packaging | Food Adulteration | Nutrition and Functional Foods | Current Research in
Food Chemistry, Nutrition and Dietetics | Food Waste and Recycling
Session Chair: Ozlem Tokusoglu, Celal Bayar University, Turkey
Session Co-chair: Yuanlong Pan, Nestlé Purina Research, USA
Session Introduction
14:00-14:25 Title: Nutrition and functional potential of underutilized Chenopodium album and its Applications
Sukhcharn Singh, SLIET, India
14:25-14:50
Title: A study on consumer’s awareness of chemically treated fruits of Dhaka city in
Bangladesh
Md. Faruque Hossain, American International University-Bangladesh, Bangladesh
14:50-15:15
Title: Antimicrobial activity of grape seed and skin extracts coated on Corona treated LDPE and
PET films
Nahla Mohamed Abdel khalek Khalil, The American University in Cairo, Egypt
Poster Session 15:15-16:10
Poster Judge 1: Ozlem Tokusoglu, Celal Bayar University, Turkey
Poster Judge 2: Gustavo V Barbosa-Cánovas, Washington State University, USA
Poster Judge 3: Yuanlong Pan, Nestlé Purina Research, USA
FC18-01
Title: Luteolin interferes with oxaliplatin-induced cell cycle arrest in human colorectal cancer
cells
Chan Ho Jang, Kyungpook National University, Republic of Korea
FC18-02
Title: Amelioration of allergic airway inflammation by fatty acids composition from sea
cucumber
Hak Sun Yu, Pusan National University, South Korea
FC18-03
Title: Gastroprotective effects of Dioscorea batatas flesh and peel against ethanol-induced gastric
injury in mice
Siyul Byeon, Kyungpook National University, South Korea
FC18-04 Title: Antioxidative effect of resveratrol-enriched grape peel 
extract on human keratinocytes
Janice Nullan Averilla, Kyungpook National University, Republic of Korea
FC18-05
Title: Phenolic contents, sensory characteristics and consumer acceptability of pasta made with
sprouted and non-sprouted chickpea flours
Adrian L Kerrihard, Montclair State University, USA
FC18-06
Title: Effect of sourdough and storage time on in vitro starch digestibility and estimated
glycemic index of gluten free tef bread
Habtu Shumoy, Ghent University, Belgium
extract on human keratinocytes
Janice Nullan Averilla, Kyungpook National University, Republic of Korea
FC18-05
Title: Phenolic contents, sensory characteristics and consumer acceptability of pasta made with
sprouted and non-sprouted chickpea flours
Adrian L Kerrihard, Montclair State University, USA
FC18-06
Title: Effect of sourdough and storage time on in vitro starch digestibility and estimated
glycemic index of gluten free tef bread
Habtu Shumoy, Ghent University, Belgium

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25th International Conference on Organic & Inorganic Chemistry (cse) S

25th International Conference on Organic & Inorganic Chemistry


OrganicChem 2020

Conference Series LLC Ltd take great pleasure in welcoming academic scientists, researchers, research scholars, students and experts of application fields to Toronto, Canada for the OrganicChem 2020 Conference during April 12- 13, 2020 to foster the progress in the field by contributing with your expertise to what promises to be a very comprehensive and exciting meeting and to enjoy the immense unique artistic heritage and wonderful landscape of Toronto.
Details of OrganicChem 2020 Conference
Conference Name Place Date
OrganicChem 2020 Toronto April 12-13, 2020

 

OrganicChem 2020 is a global platform to discuss and learn about new compounds and its structure, bonding, reactivity in field of organic chemistry and organometallic chemistry, organic geochemistry, biogeochemistry, marine geochemistry, petroleum geochemistry, Bioorganic and medicinal chemistry. Advancement in fields of modern experimental organic chemistry, modern analytical organic chemistry, modern theoretical organic chemistry, combinatorial Chemistry, flow chemistry, green chemistry, microwave chemistry, microwave spectroscopy, new synthetic methods and advances in catalysis.

In the light of this theme, the Conference Series LLC Ltd aims to provide a forum for international researchers from various areas of chemistry, pharmacy, materials science and chemical engineering by providing a platform for critical analysis of new data, and to share latest cutting-edge research findings and results about all aspects of Organic Chemistry. The meeting will be a multidisciplinary gathering and present major areas such as organometallic, medicinal chemistry, polymer chemistry and overall applications.

Conference Series LLC Ltd organizes 1000+ Conferences Every Year across USA, Europe & Asia with support from 1000 more scientific societies and Publishes 700+ Open access journals which contain over 30000 eminent personalities, reputed scientists as editorial board members.

Target Audience

  • Organic Chemists

  • Inorganic Chemists

  • Professors in Chemistry

  • Associated and Assistant Professors in Organic Chemistry

  • Post-doctoral and Researchers in Chemistry

  • Heads of Chemical Departments

  • Post Graduates and Graduates in Medicinal Chemistry

  • Laboratory Chemists

  • Chemical Scientists working on Materials

  • Experts in the development of Organometallic Chemistry

 

Why to attend OrganicChem 2020??

The aim of the OrganicChem 2020 is to promote quality research and real-world impact in an atmosphere of true international cooperation between scientists and engineers by bringing together again the world class researchers, International Communities and Industrial heads to discuss the latest developments and innovations in the fields of Chemistry.

We sincerely hope that OrganicChem2020 serves as an international platform for meeting researchers from around the world, widen professional contact and create new opportunities, including establishing new collaborations.

We are looking forward to seeing you at OrganicChem 2020 in Toronto, Canada.


Conference highlights

  • Fundamental Concept of Organic Chemistry

  • Bioorganic and Biochemistry

  • Stereochemistry of Organic Compounds

  • Computational Chemistry and Cheminformatics

  • Phytochemistry and Pharmacognosy

  • Green Chemistry and Sustainable Technology

  • Polymers and Monomers

  • Bio-chemistry and agricultural chemistry

  • Analytical Chemistry

  • Advanced Synthesis and Catalysis

  • Physical Organic Chemistry

  • Natural Products and Heterocyclic Chemistry

  • Flow Chemistry

  • Medicinal Chemistry, Drug Synthesis

  • Inorganic and Bioinorganic Catalysis

  • Inorganic Materials and Nanoparticles

  • Organometallic Chemistry

  • Industrial Inorganic Chemistry

  • Organic Photochemistry

  • Forensic Chemistry

  • Modern Organic Chemistry and Applications

 

Market Analysis

The global chemical industry has grown by 7 percent annually, reaching €2.4 trillion in 2010. Most of the growth in the past 25 years has been driven by Asia, which now owns almost half of global chemical sales. The global chemical markets are expected to grow an average 3 percent in the next 20years. Asian players are positioned to own two-thirds of the market by 2030.

Organic chemical industry is anticipated to hold 51% of the total chemical industry market globally by 2030. With Asia Pacific, Europe, North America and Latin America being the leading markets for organic chemicals, the industry has witnessed approx. 10% growth in the last 5 years. Expanding industry applications, investment favouring industry policies are driving organic chemicals market till 2020.Extensive primary research is being conducted among leading companies such as BASF, Dow Chemicals, SABIC, Sinopec, and DuPont Chemicals and key opinion leaders from organic chemical industry.

Global Organic Acids Market was valued at $16,837 million in 2020, and is expected to reach $29,197 million by 2023, registering a CAGR of 8.3% from 2020 to 2023. Organic acids are weak acids that do not completely dissociate in water when compared to mineral acids.

Key players such as BASF SE, Cargill, Inc., The Dow Chemical Company, Eastman Chemical Company, Myriant Corporation, Celanese Corporation, Archer Daniels Midland Company, Henan Jindan Lactic Acid Technology Co. Ltd., Tate & Lyle Plc., and E. I. Du Pont De Nemours and Company have largely invested in R&D activities to develop advanced products to cater to the requirements of the consumers.

 

United States Chemical industry:

The chemical industry is one of the largest and most important industries worldwide. The United States is the largest national producer of chemical products globally. Including the pharmaceutical sector, its chemical output value was more than 767 billion U.S. dollars in 2020.

2020 ranking of leading United States chemical companies based on revenue (in billion U.S. dollars)

Projection of annual production growth in the United States chemical industry from 2020 to 2023

 

Canada Chemical Industry:

Canada’s chemistry industry is a world leader in low-intensity carbon chemical production for many reasons. Perhaps the biggest natural advantage the chemistry sector enjoys is access to abundant low-carbon fossil fuel feedstock. Natural gas is comprised of about 92% methane (CH4) and is used for heating fuel, electricity generation, and even as transportation fuel for vehicles with modified engines. Methane can also be a feedstock for some petrochemical manufacturing. Remaining components of natural gas are called natural gas liquids (NGLs) include ethane, propane, butane and pentanes. These are used as building blocks for plastics and solvents, polypropylene, refrigerants, rubbers and more.

A 2020 study from the Joint Research Centre of the European Commission compared different chemistry production processes and technological options to increase GHG efficiency and found that ethylene production that uses higher-carbon naphtha as a feedstock has an 82% higher GHG emissions factor than ethylene produced from lower-carbon ethane feedstock. Over the years, Canada’s chemistry sector has converted its ethylene facilities from naphtha to ethane feedstock and are already benefiting from this lower carbon approach to production.

Canada also has an abundant supply of low emissions hydroelectricity and huge potential for developing biomass resources to be used as feedstock and energy sources in chemistry production processes. With large portions of provincial energy grids already carbon-free, chlorine-related chemistries have a near-zero GHG footprint. In other countries, notably in Europe, Asia and the Middle East, high-carbon electricity grids result in higher GHG emissions associated with their chlorine production when compared to Canada.

 

United Kingdom Chemical Industry:

The UK industry is active in all key areas: basic inorganics, petrochemicals, polymers, agrochemicals, paints, detergents and personal care products, in specialties such as adhesives, flavours and fragrances, and in a host of industrial specialties including lubricants, fuel additives, construction chemicals and catalysts. It is also a global leader in pharmaceuticals. With £48.7 billion of revenues and £17.8 billion value added in 2020, chemicals & pharmaceuticals is the UK’s second largest industry. The current UK government has committed around £4.7bn to support R&D and innovation. This commitment should be seen against the broader ambition to boost R&D spending to 2.4% of GDP by 2027.

 

Sessions/ Tracks

1. Aspects of Organic Chemistry

Types and characterization of organic compounds
Functional groups
Aliphatic and aromatic compounds
Heterocyclic compounds
Nomenclature of new compounds
Efficiency in Organic Synthesis
Organic Synthesis for Materials Science
Organic Synthesis for Life Science

 

2. Bioorganic and Biochemistry

Classification of amino acids
Peptides sequence analysis
Stereochemistry of amino acids
Acid-Base behaviour of amino acids
Synthesis of amino acids
Reactions of amino acids
Peptide structure amino acid Analysis
Nucleosides
Classification of carbohydrates
Fischer projections and the DL notational system
Aldotetroses
Disaccharides and polysaccharides
Epimerization and isomerizations

 

3. Stereochemistry of Organic Compounds

Molecular chirality and enantiomers
Properties of chiral molecules and optical activity
The cahnIngoldPrelog RS notational system
Physical properties of enantiomers
Stereogenic center 

 

4. Computational Chemistry and Cheminformatics

Chemoinformatics and its applications
Cheminformatics tools for drug discovery
Quantitative structure activity relationship
Bioinformatics

 

5. Phytochemistry and Pharmacognosy

Natural products chemistry in drug discovery
Isolation and structure determination of natural products
Analysing pharmacogenomics studies
Phytotherapy
Herbs and botanicals as dietary supplements
Ethnopharmacy
Comparative phytochemistry, its history, concepts, applications and methods

 

6. Polymers and Monomers

Polymer structure and morphology
Polymer synthesis and polymer coating
Enzyme kinetics and thermodynamics of enzymatic reactions

 

7. Bio-chemistry and agricultural chemistry

Biochemistry and agrochemicals
Elementary calculus
Weed biology and control
Biochemistry and metabolism
Environmental management

 

8. Advanced Research in Environmental Organic Chemistry

Probes of Applied Science
Analysis of Semi and Volatile Compounds
Chemical Life Science
Environment Toxicology

 

9. Analytical Chemistry

Standardizing analytical methods
Equilibrium chemistry
Gravimetric methods
Titrimetric methods
Spectroscopic methods
Electrochemical methods
Chromatographic & Electrophoretic
Quality assurance
Additional resources

 

10. Advanced Synthesis and Catalysis

Heterogeneous catalytic process
Catalyst formulation and preparation methods
Catalysts characterization methods
Mechanism of catalytic reactions
Design of catalysts and simulation techniques

 

11. Physical Organic Chemistry

Atomic theory
Biophysical Chemistry
Thermochemistry and quantum chemistry
Chemical bonding, aromaticity, anti and homoaromaticity and structures
Solvent effects and isotope effects on organic reactions
Acidity, nucleophilicity and electrophilicity
Equilibria

 

12. Natural Products and Heterocyclic Chemistry

Chemistry and efficacy of natural products
Safety and regulations on natural products
Cosmeceuticals, nutraceuticals (functional foods) and beverages
Health and beauty product development and innovation
Methodologies for natural products

 

13. Flow Chemistry

Continuous flow reactors
Photo chemistry in combination with flow chemistry
Electrochemistry in combination with flow chemistry
Segmented flow chemistry

 

14. Combinatorial Chemistry

Parallel Synthesis of Combinatorial Chemistry
Application of Solid Phased Reagents
Diversity in Oriented Synthesis

 

15. Medicinal Chemistry, Drug Synthesis

Pharmaceutical Sciences
Drug discovery
Pharmacophore and Xenobiotic metabolism
Pharmacognosy and Pharmacokinetics
Pharmaceutical Industry
Anticancer agents
Pharmacology and toxicology
CADD (Computer Aided Drug Design)
Drug Design and Drug Development
Hit to lead and lead optimization
Synthesis and Medicinal Chemistry for Cancer and Age-Related Diseases
QSAR (Quantitative Structure-Activity Relationship) Fragment-Based Drug Design
Organic and Medicinal Chemistry Technologies for Drug Discovery

 

16. Inorganic and Bioinorganic Catalysis

Crystallography
Coordination Chemistry & Case Studies
Organometallic chemistry
Molecular geometry
Ligand field theory
Descriptive Chemistry
Electronic configurations
Crystal Lattices
Crystal Field Theory
Reactions in aqueous solutions

 

17. Inorganic Materials and Nanoparticles

Materials Science and Engineering
Polymer technology
Nanotechnology in material science
Mining, Metallurgy and Materials Science
Computational Materials Science
Electrical, Optical and Magnetic Materials

 

18. Organometallic Chemistry

Organometallic nomenclature
Carbonmetal Bonds in organometallic compounds
Grignard reagents
Transition metal organometallic compounds
Carbenes and carbenoids

 

19. Organic Industrial Chemistry

Quality Control of Crude Drug Materials
Petroleum and Petrochemicals Distillations
Assay Values of Crudes and its Reconfigurations
Organic Chemistry and its Clinical Diagnostics Techniques in Industries
Industrial pharmaceutics

 

20. Inorganic Industrial Chemistry

The Chemical Industry.
Sources of Inorganic Raw Materials
Sulfuric Acid and Sulfates
Nitrogen Compounds
Phosphorus Compounds
Chlor-Alkali Compounds
Titanium Dioxide

 

21. Modern Organic Chemistry and Applications

Organic synthesis
Development of synthetic methodologies
Functional organic materials
Supramolecular and macromolecular chemistry
Physical and computational organic chemistry
Heterocycles
Bioorganic Chemistry
Asymmetric Reactions
Metals in Organic Chemistry 
Graphene 
Nanostructures from DNA building blocks 
Tuberculosis diagnostics 
Fluorination 
Pyrrolysine
Structural biology by NMR.

 

OCM for OrganicChem Series Conferences

Organizing Committee - GOICC 2020

OCM Member

Kallol K. Ghosh

Professor
Pt. Ravishankar Shukla University, Raipur , India
India

 


OCM Member

Edward Lee Ruff

Professor
York University
USA

 


OCM Member

Yuichi Shimazaki

Professor
Ibaraki University
Japan

 


OCM Member

Maged Henary

Professor
Georgia State University 
USA

 


OCM Member

Mahesh N. Sanzgiri,

Professor
St. Xavier’s College
India

 


OCM Member

Romano VA Orru

Professor
VU University
Netherland

 


OCM Member

Majid M Heravi

Professor
Alzahra University
Iran

 


OCM Member

Waldemar Adam

Professor Emeritus
University of Puerto Rico
Puerto Rico

 


OCM Member

Jun Yin

Associate Professor
Georgia State University
United States

 


OCM Member

P. Gregory Van Patten

Department Chair
Middle Tennessee State University
United States

 


OCM Member

Xin-Tao Wu

Professor
Chinese Academy of Sciences
China

 


OCM Member

Yong-Li Zhong

Principal Scientist
Merck & Co., Inc.
USA

 


OCM Member

Saad Alotaibi

Dean of Turabah Abdullah university
Taif University
Kingdom of Saudi Arabia

 


OCM Member

Mariarosa Raimondo

Senior researcher
ISTEC CNR, Italy
Italy

 

Please contact the event manager Marilyn ([email protected] ) below for:

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5th Edition of International Conference on Polymer Science and Technology

5th Edition of International Conference on Polymer Science and Technology

About conference

Polymer Science 2020 heartily invites participants from everywhere the globe to attend 5­th Edition of international conference on Polymer science and technology on July 30-31, 2020 at Amsterdam Netherlands, mainly centered on theme: “Accelerating the Trending Polymer Innovations for solving Societal Challenges”. Polymer Science 2020 aims at blooming up the new innovative concepts and new technologies amongst the professionals, industrialists and students from analytical areas of fabric science, compound science and technology.

On behalf of the Organizing and Program Committee we tend to take pleasure of gathering pioneers, eminent professors, researchers, scientists and students across the globe to share and exchange their experiences in each and every allied ideas as well as analytical areas of Polymer science, Chemistry and technology. It is an excellent platform to share your recent innovations and applications in the form of cooperative discussions and technical sessions.

Euro Polymer Science 2020, is an event where you can share and interchange theoretical information and technical applications in Polymer science. There'll be several seminars, workshops and technical sessions which will grab the interest of the professionals who will attend the conference. 

Important and scope:

Polymer science field of fabric has helped in advancement in numerous fields of science and technology. the compound business has apace developed and is larger than the copper, steel, Al and a few different industries combined. each natural and artificial polymers square measure remarkably concerned in comfort and facilitation of human life and square measure liable for life itself, for medication, nutrition, communication, transportation, irrigation, container, clothing, recording history, buildings, highways, etc. In fact, it's difficult to imagine human society while not artificial and natural polymers. In our ever-increasing technological world, science plays a vital role in providing solutions to vital issues of air, clean, and rich water, food, energy, and health. the attention of polymers and connected texts give each the statistics and insights of their higher understanding in our life.

Why to attend:

Euro Polymer science-2020 that goes to be the leading conference dedicated to chemical compound science provides a foremost technical forum for sharing and learning regarding this analysis and advancements, in conjunction with conversing new applications and technologies. From everywhere the planet there'll be displays on main topics by skilled and leading operating teams and panels.

The main objective of the conference is to targeted on searching for regarding Polymer science and Technology, this is often the most effective probability to satisfy several nice professionals, scientists from throughout the planet. It Conduct shows, debates poster displays spreads the information and acknowledgment at this occasion .Broadly acclaimed speakers, the most recent strategies, strategies, and therefore the up up to now services in chemical compound science and technology square measure signs of this conference.

Traget Attendees:

Eminent Scientists of Polymer Science & Engineering

Polymer Professors

Research fellows

Students

Directors of Polymer companies

Chemical Engineers

Polymer Associations

Sessions Track

Track 1: Nanomaterial and nanotechnology

In nanomaterial and nanotechnology the term ‘Nano’ is derived from the Greek ‘Nanos ‘which is known as extremely small particle. Basically nanomaterial is material with dimensions on the nano-scale.structure at Nano-scale has unique optical, electronic, or mechanical properties. Actually nanomaterial’s cover huge areas of materials of materials, many of which we would not normally consider to be particularly revolutionary. Because nature is full of nanomaterial’s and Nano-structure. Nanotechnology is the engineering of operative systems at the molecular scale. This covers both present work and concepts that are more advanced. In this real world today the nanotechnology has ability to bulid products using techniques and equipments to produce completly high performance products. The idea that seeded nanotechnology were first discussed in 1959 by renowned physicist Richard Feynman in his talk There's Plenty of Room at the Bottom in which it explained about the possibility of synthesis via direct manipulation of atoms

Track 2: Polymer Chemistry

Polymer chemistry is a chemistry branch which deals with structures and their properties.it is also known as macromolecular chemistry. Processing of macromolecule is called as polymer . Polymer chemistry conjointly deals with issues associated with medication, Biology, organic chemistry and Material Science; however, Polymer Chemists focus on synthetic organic polymers due to their commercial importance. It is all about analysing how the monomers merge to generate useful substances with the desired features by manipulating their molecular structure, the composition, and applying chemical and processing techniques that can impact the properties of the final product.

Track 3: Polymer Rheology:  

The study of flow of matter is known as Rheology basically in a liquid state, but also responds for "soft solids" or solids like plastic flow rather than deforming elastically in response to applied force. It is a department of physics which deals with the deformation and flow of materials, both solids and liquids. Rheology generally accounts for the behavior of non-Newtonian fluids, by distinguish the minimum number of functions that are needed to relate stresses with rate of change of strain or strain rates. Rheometry is experimental characterization of a material's rheological behavior .In execution, rheology is principally concerned with prolong continuum mechanics to characterize flow of materials, that indicates a combination of elastic, viscous and plastic behavior by properly combining elasticity and (Newtonian) fluid mechanics. Rheology has many application in polymer science and engineering, pharmaceutics, biology and physiology.

Track 4: Biopolymers

“Polymeric biomolecules” or the Biopolymers are polymers fabricated by living organisms. Polynucleotides, Nucleotides and Polypeptides are the three main classes of polymers those are called long polymers.it also have short polymer of amino acids and polysaccharides which are frequently linear bonded polymeric carbohydrate structure for example examples: rubber, suberin, melanin and lignin.

Structure of the biopolymer has a well- defined. The difference between biopolymer and synthetic polymer can be found in their structure .compare to biopolymer synthetic polymer has much simplest structure. This fact shows to a molecular mass distribution that is missing in biopolymers. All biopolymers are alike That they all contain the similar sequences and numbers of monomers and thus all have the same mass. 

Track 5: Commercial Application of Biopolymers

A large form of biopolymers, like polysaccharides, polyesters, and polyamides, square measure naturally synthesized by microorganisms. These biopolymers vary from viscous solutions to plastics and their physical properties that square measure addicted to the composition and relative molecular mass of the chemical compound. gene-splicing of microorganisms has provided a huge potential for the biotechnological production of biopolymers with desired properties appropriate for medical application like tissue engineering, material science, drug delivery and bioplastics. There square measure many advantages in commercializing biopolymers largely for property development, renewability and eco-friendly aspects. Bioplastics will be factory-made principally with 3 completely different ways, one is modifying present polymers like starch, cellulose. Second, is by polymerizing bio-based monomers that square measure created by fermentation and therefore the last one, as mentioned earlier, by genetically changed microbes and plants. There square measure many technologies and processes designed for biopolymer production that embrace extrusion, film processing, thermoforming, fermentation, injection moulding, etc.

Track 5: Synthetic polymers

In the early decade, chemists began to duplicate natural polymers, and build artificial polymers, starting with nylon that mimics silk in its strength and suppleness. This man-made polymers area unit those that include many continuance structural units called monomers. synthetic resin is one in every of the only and best better-known samples of polymers, it's ethylene or olefin because the chemical compound unit whereveras the linear compound is thought because the high density synthetic resin. several chemical compound materials have chain-like structures that area unit kind of like synthetic resin. the foremost common uses of polymers of in standard of living area unit in material and textile industries, non stick pans, PVC in pipes and PET bottles that area unit normally used. Tyres area unit factory-made from BUNA rubbers. Plastic could be a kind of artificial compound. Currently, over sixty thousand plastics square measure factory-made for industrial and business functions. Roughly seventy fifth of the plastics utilized in this country is classified mutually of six varieties, or “The massive Six”.Polyacrylamide could be a water swelling and high relative molecular mass compound made up of amide monomers. Poly (acrylamide-co-acrylic acid) and its atomic number 11 salts (APAM) area unit wide being employed as thickening agent, binder, soil conditioner, filtering properties, flocculating agent, suspending agent, lubrication, and oil recovery agent. one in every of its biggest uses is waste water treatment. artificial polymers are evolving with new rising technologies that have taken inspiration from different areas like biology, like self healing polymers that heal once injury is completed to that that area unit typically thought of irreversible, it's still in development and presents a challenge to provide it in massive scale. different advanced polymers embody, nanocomposites and plastic physics.

Track 6: Solid waste management techniques of polymers

Development and modernization has caused an enormous increase within the production of every kind of commodities, that indirectly generate waste. Plastics are one in every of the materials thanks to their wide selection of applications thanks to skillfulness and comparatively low price. they're unbelievably versatile materials; they're cheap, light-weight, strong, durable, and corrosion-resistant with high thermal and electrical insulation properties. the {range the variety} of polymers and therefore the skillfulness of their properties facilitate the assembly of an enormous range of plastic product that bring technological advances, energy savings and diverse alternative social edges By. analysis relating to the usage techniques of Plastic Solid Waste (PSW). These are categorized into, re-extrusion (primary), mechanical (secondary), chemical (tertiary) and energy recovery (quaternary) . every methodology provides a singular set of benefits that create it significantly beneficial for specific locations or applications. Mechanical usage (i.e. secondary or material recycling) involves physical treatment, while chemical usage and treatment (i.e. tertiary encompassing feedstock recycling) produces feedstock chemicals for the industry Chemical usage, i.e., conversion of waste plastics into feedstock or fuel has been recognized as a perfect approach and will considerably scale back cyberspace value of disposal. the assembly of liquid hydrocarbons from plastic degradation would be helpful therein liquids are simply keep, handled and transported. However, these aims don't seem to be simple to realize . another strategy to chemical usage, that has attracted a lot of interest recently with the aim of changing waste plastics into basic petrochemicals to be used as organic compound feedstock or fuel for a spread of downstream processes. There are completely different strategies of getting fuel from waste plastic like thermal degradation ,catalytic cracking and chemical change. several different method together with shift and chemical action degradation are developed to De-polymerize waste plastics into liquid organic compound fuels. Thermal degradations don't seem to be solely used for compound however it's conjointly used for aromatics and gas .

Track 7: Polymer+3D Printing

From a synthetic bone fabricated from acrylic to custom confections created from chocolate, the globe of 3D printing keeps obtaining additional superb. Today, 3D printers will enable individuals to form just about something, employing a form of materials, from metal and ceramic to sugar and polystyrene. Of course, plastic is that the substance that 1st created 3D printing of any kind doable, and plastic remains one in every of the foremost common and versatile styles of materials employed in 3D printing.A commenter on a recent compound Solutions journal asked for data regarding the foremost common styles of plastics employed in 3D printing. Here’s a touch bit regarding the 3 most-frequently used plastics that have helped spur the superb evolution of 3D printing:

A terpolymer invented by polymerizing polyvinyl resin and vinyl cyanide with polybutadiene, ABS is another plastic unremarkably employed in 3D printing. Beginners particularly favor it for its simple use in its filament kind, and since it’s sturdy, strong, heat-resistant, efficient and versatile. , PLA is created from renewable, organic resources like corn starch or sugarcane. It’s unremarkably wont to create food packaging and perishable medical devices and implants. PLA is nice for 3D printing as a result of it’s straightforward to figure with, environmentally friendly, accessible in a very sort of colours, and may be used as either a organic compound or filament.

Of course, the vary of materials which will be employed in 3D printing continues to expand and evolve beside the method and its applications. Still, one in every of the foremost superb developments in producing traces its beginnings to the initial “space-age” material — plastic. which strikes America as terribly fitting!

Track 8 : Green Polymers

Go green, go natural! once it involves polymers, inexperienced and natural aren't identical. As their name implies, natural polymers (or biopolymers) square measure polymers that occur naturally or square measure created by living organisms (such as polysaccharide, silk, chitin, protein, DNA). By a wider definition, natural polymers is unreal out of raw materials that square measure found in nature.

In addition, the employment of renewable resources for inexperienced compound production mustn't contend with food production, mustn't promote intense farming or deforestation, and will not use transgenic plants or genetically changed bacteria; perishable polymers mustn't turn out inhalable spores or nanoparticles.

Although natural polymers still quantity to but I Chronicles of the three hundred million loads of plastics created per annum, their production is steady rising. In the U.S., demand for natural polymers has been foreseen to expand half-dozen.9 p.c annually and rise from $3.3 billion in 2012 to $4.6 billion in 2020. The market is driven by a growing demand for natural polymers with medical and pharmaceutical medical applications. Natural polymers are also utilized in construction and adhesives, food, the food packaging and food industries, and cosmetics and toiletries, similarly because the paint and inks industries. The market is LED by polysaccharide ethers and conjointly includes starch and fermentation polymers, exudates and vegetable gums, protein-based polymers, and marine polymers.

Track 9: Bio- Medicinal Polymers

Multiple biological, artificial and hybrid polymers are used for multiple medical applications. a good vary of various polymers is obtainable, and that they have additional the advantage to be tunable in physical, chemical and biological properties in an exceedingly big selection to match the wants of specific applications. This review provides a short summary concerning the introduction and developments of polymers in drugs normally, addressing initial stable polymers, then polymers with degradability as a primary biological perform, followed by varied alternative purposeful and responsive polymers. it's shown up that medicine polymers comprise not solely bulk materials, however additionally coatings and pharmaceutical nano-carriers for medicine. there's later on an outline of the foremost oft used compound categories. the most body of the review then is structured in step with the medical applications, wherever key needs of the applications and also the presently used compound solutions are indicated.

Track 11: Polymer Industry Market

Polymer demand in Europe the ecu compound market has long been recognized amongst the globe leaders. it's presently facing apparently restricting maturity within the West and therefore the question is currently, of a way to add price throughout the availability chain. Central Europe is seeing increasing investment in industrialized and plastic process, with several countries cashing in on free access to the only market not to mention an occasional production prices. Russia and therefore the former state Republics still have lots of unsuccessful potential, deteriorated by poor republics relations and political economy. The smaller states within the region square measure experiencing a fast growth of technological capability that offers nice opportunities, but at a similar time, threatens long established markets within the west. the ecu market is big and various and despite increasing economic process, opportunities square measure gift in today’s climate. while not prime quality information it's troublesome to arrange future investments and promoting ways. AMI’s latest report provides careful applied math analysis of wherever growth opportunities lie and therefore the nature of the trade. This report can assist any company wish to raised perceive the ecu industry

AMI's 2020 European industry Report, European compound markets square measure forecast to grow by one.3% this year, building on a recovery of but I Chronicles for 2020. However, even this modest gain is underneath risk from the region's tight provide for several materials and chop-chop economic process.As a result the ecu industry in 2020 finds itself in another amount of upheaval and alter because it appearance to tug out of the stagnation caused initial by the nice Recession in 2008-2009 then by the Eurozone crisis 2012-2013. within the 2 years since AMI printed its last review, in 2013, demand has barely shifted from simply over thirty six million tones and therefore the volume of polymers consumed in 2020 was still some 100 percent below that utilized in 2007 before the nice Recession hit

Track 12: Polymer Applications

Polymers might sound sort of a terribly business specific issue, and to a point they're, however they're truly a reasonably massive a part of a great deal of industries you'll so acknowledge. compound testing and practice for plastic has applications in such industries as part, automotive, physical science, packaging and medical devices. Polymers are implausibly numerous parts that represent such fields of engineering from aeronautics through medicine applications, drug delivery system, biosensor devices, tissue engineering, cosmetics etc. the applying of polymers and their resultant composites continues to be advancing and increasing quickly because of their ease concerning producing. once considering a compound application, you may need to grasp however the fabric behaves over time therefore you'll be able to assess its real price. it's necessary to grasp that chemical compound materials might include: raw materials, compound compounds, foams, structural adhesives and composites, fillers, fibres, films, membranes, emulsions, coatings, rubbers, protection materials, adhesive resins, solvents, inks and pigments. confine mind that these ar a number of the industries during which you'd see the employment and application of varied chemical compound materials and polymers themselves

Track 14: Nanopolymers and modern day application

Nanopolymers area unit presently being developed to seek out attention-grabbing applications in life sciences. These are have a broad vary of application it's a quick rising trend in chemical compound technology. Nanopolymers possessing kind of structures, shapes and purposeful forms have recently been synthesized victimisation many techniques. Nanopolymers area unit the foremost advantageous materials that area unit building blocks for mounting complicated and easy stratified nanosystems. Organizations and government entities area unit investment large amounts in nanotech R&D. natural science technology innovators across the world area unit delivering new merchandise and technologies. Nanotubes area unit being developed to decrease failures of dental implants that happens thanks to infection or dislodging from the encircling bone. By utilizing metallic element nanotubes loaded with anti-inflammatory drug and antibiotic agents it absolutely was discovered that bone cells grew a lot of smartly round the implants and also the implants had reduced probabilities rejection and infection. Nanopolymers like compound micelles may be used as coating materials for tissue engineering scaffolds. it's been discovered that such drug-loaded micellar shells will give controlled drug unleash and thus, foreseen and measured unleash may be achieved from nanoscaffolds for medication, genes or proteins adding blessings to preventing infection or stepping up tissue and organ regeneration. Nanopolymers also are applicable in automotive industries in manufacturing automobile elements like coatings created from water-repelling chemical compound nanocomposites or quartz nanoparticles, that permits it to stay clean and shield against scratches and chips and cut back corrosion with none amendment in look of the paint beneath. Similarly, there area unit varied applications for nanopolymers and engineering in a very wide spectrum of business sectors.

Track 15: Polymer Synthesis and Polymerization

Polymers are vast macromolecules composed of continuation structural units. The procedures of composition of macromolecules is chemical change. whereas chemical compound in standard usage suggests plastic, the term truly refers to an outsized category of natural and artificial materials. because of the extraordinary vary of properties accessible, polymers have return to play a vital and present role in way of life - from elastomers and plastics on the one side to natural biopolymers such as proteins and DNA on the other side. The study of chemical compound science begins with understanding the strategies during which these materials are synthesized. chemical compound synthesis may be a complicated procedure and might ensue in an exceedingly form of ways in which these materials are synthesized. Polymer synthesis is a complex method that can take place in a different of ways.

AGENDA

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14th International Conference on Biologics and Biosimilars (CSE)

14th International Conference on Biologics and Biosimilars

About


Biosimilars 2020

Conference Name

Place

Date

Biosimilars 2020

Chicago, USA

August 2-3, 2020

14th International Conference on Biologics and Biosimilars is scheduled to held on August 2-3, 2020 in Chicago, USA. On behalf of the Organizing Committee we welcome you all to join us once again in this elaborately planned Conference which is going to host Keynote Sessions, Plenary sessions, Posters Presentations, Exhibitions and Career Development Programs.

Biosimilars 2020 Conference is a one of a kind conference where we will be focusing on Biosimilars potential to change the Pharmaceutical world. With the theme "A new doorway to novel yet affordable medicines", we will try to reason more with why we need Biosimilars in our lives and how can we make it safer and reliable. We will be covering various topics related to the field of Biopharmaceutical, especially Biosimilars in the form of Keynote Sessions, Plenary Sessions, Poster Presentations and Workshops.

Why to attend the Conference?

Meet researchers from Biologics, Biosimilars and Biopharmaceutical industry

Networking with global experts in pharma and biopharma research

Gain critical insights on biosimilars research

Update yourself with latest USFDA approval policies and stringencies

Understand the Return on Investment and Pharmacoeconomics

Meet R&D and Business Development Managers from Pharma Companies


Whom will you meet

R&D Scientists and Researchers from Biopharma Industry

Senior Scientists and Researchers from Pharma Industry

Regulatory Agency professionals

Regulatory and IPR Attorneys

Business Development Teams


Sessions

Track 1: Biosimilars Development

Biosimilars being referred to as follow on Biologics calls for overcoming many challenges while it’s development. As comparisons are being drawn from the initial stages, it is very important to have proper scientific as well as strategic approached taken for the successful development of these Biosimilars. This need for overcoming the challenges continues till the late clinical steps, drug safety factors and labeling requirements.

Track 2: Biosimilars in Therapeutics 

With the effectiveness of biosimilars and its cheap price, biosimilars is in huge demand in the pharmaceutical market. With the advancement of Biosimilars, disease management has become comparatively easier. It is currently being used in the treatment of ailments like psoriasis, rheumatic arthritis, cancers, inflammatory bowel disease (IBD) etc. Biosimilars are also being used as monoclonal antibodies, growth hormones, peptides, therapeutic proteins etc.

Track 3: Clinical Trials of Biosimilars

As the demand of Biosimilars is ever increasing in the pharmaceutical market, it is very important to check them properly before releasing it to the mass. That is why there is a stepwise approach towards clinical trials of Biosimilars. It has various levels such as Extensive Molecular characterization Program, Pre-Clinical, Phase 1, Phase 3, Phase 4 and so on.

Track 4: Biosimilars in Oncology

Cancer is something which if treated properly is not hard to beat. Most of the medicines that we currently have for Cancer are way too costly for any common human being, but Cancer being one of the largest cause of death needs proper treatment. This is where Biosimilars come handy. Biosimilars being cheaper can increase access worldwide to potentially life saving biologics.

Track 5: Drug Development and Delivery 

Drug development is the process of bringing a new pharmaceutical drug to the market once the led component has been identified through the process of drug discovery. It further has pre-clinical and clinical development procedure. Once the drug has been developed, it is important to check its mode of function, this is termed as the drug delivery. Once this has been done, the drug can be qualified for usage. This session will be looking on the such following topics.

Track 6: Challenges in Pharmacovigilance

This session of the Biosimilars 2020 will be looking into the future and FDA initiatives that have already been announced to include enhanced tracking and follow-up of post market issues, planned improvements in AERS, and pilots of new post market drug-monitoring strategies. Current challenges in pharmacovigilance, Adverse drug reactions with pharmaceutical products, Biosimilar guidelines for pharmacovigilance practice and pharmacoepidemiology are the points that shall be laid emphasis in this session.

Track 7: Bioequivalence Assessment

Bioequivalence focuses on the equivalence of release of the active pharmaceutical ingredient from the pharmaceutical product and its subsequent absorption into the systemic circulation. This session has utmost importance in context to the fact that only a suitably bioequivalent drug candidate that conforms the results in all respects to the original licensed product can be called as biosimilar drug.

Of all attempts towards developing a follow on biologics or a biosimilar drug the main detection point stands at the bioequivalence assessment. Once the bioequivalence has been obtained it can be 70% ascertained the drug qualifies to be a suitable biologics or biosimilars.

Track 8: Biosimilars Pipeline

Biosimilars is a biologic medical product which is copy of an original product that is manufactured by a different company. There are some specific scientific consideration for criteria, design and analysis regarding development of Biosimilars. Biosimilars are officially approved versions of original biosimilar innovator products, and can be manufactured when the original product's patent expires.

This session shall be highly beneficial for the biosimilar industry researchers to update themselves on the latest research updates from around the world. This session also finds place for all the biosimilar exhibitions associated with the field of biosimilars and biologics.

Track 9: Biopharmaceuticals

A biopharmaceutical is also known as a biologic(al) medical product. It is any pharmaceutical drug product which is manufactured in, extracted from, or semisynthesized from biological sources. They are different from totally synthesized pharmaceuticals. They include vaccines, blood and blood components, allergenics, somatic cells, gene therapies, tissues, recombinant therapeutic protein, and living cells used in cell therapy.

Track 10: Intellectual Property Rights

The safeguarding of product trade secret, its formulations and other process parameters by law is usually covered by IPR. It includes those as patents, copyrights, industrial design rights, trademarks etc. IPR is of prime importance in the field of biologics and biosimilars. Most scientist and industries tend to retain their monopoly business by exercising the IPR.

The very name Biosimilars calls for the occurrence of Intellectual Property rights laws and by-laws. Hence this session is of utmost interest to the attorneys and law personnel.

Track 11: BCS and IVIVC Based Biowaivers

The objective of this work was to suggest the biowaivers potential of biopharmaceutical classification system which is known to increase the solubility, dissolution, oral absorption of water insoluble drugs. Biopharmaceutics Classification System and invitro and invivo classification discusses about ADME pathways of different drugs. This also includes BCS biowaivers, In vitro diffusion cells for dissolution testing in formulation development, In vitro preclinical ADME/BCS testing.

Track 12: Legal Issues and BPCI Acts 

The Patient Protection and Affordable Care Act (PPAC Act) was signed into law in March 2010 in addition to the amendments in the Public Health Service Act (PHS Act) to create an abbreviated approval pathway for biosimilars and follow on biologics. These new statutory provisions are often referred as the Biologics Price Competition and Innovation Act of 2009 (BPCI Act). This track concentrates upon such legal bindings and the aspects of the BPCI Act that pertain to the biosimilars and biologics. This session on legal issues shall be very beneficial to research scientists from both academic backgrounds and also those from industry R&D.

Track 13: Regulatory Approach for Biosimilars

Biosimilars are the generic version of biological. It is the new buzz word in pharmaceutical industry. Biosimilars are highly similar to licensed reference product not withstanding minor differences in clinically inactive components; also there are no clinically meaningful differences between the biologicals and the reference product in terms of safety, purity, and potency. This track includes: Licensing of biosimilars, Biosimilars regulation, Patent issues, BLA filing for biosimilars, Biosimilars regulatory prospects of BRIC countries, a paradigm of traditional generics to Biosimilars, Biowaiver approval for Biosimilars and other aspects of Biosimilar approvals. Biosimilars 2020 will provide an excellent and global opportunity to the scientists, partners and pharma leaders from Biopharmaceutical and Biotechnology industries to innovate and to explore the strategic market for Biosimilars and Biologics with a clear picture of the regulatory approach for biosimilars and biologics.

Track 14: Globalization of Biosimilars

This track discuses about the generic drugs impact on global biosimilar market , Cost and risk management, Adopting innovative mechanisms such as risk-sharing arrangement, European market for biosimilars.

The global market scenario with the launch of first biosimilar in the market forecasts some radical changes. This track will look upon such key concerns which are witnessed by the global pharma market and that are coming up with the subsequent launch of the other biosimilars and biologics. Despite these emerging facilities, biotherapeutic developers are most comfortable off-shoring to established markets—the US and Europe.

TENTATIVE SCHEDULE

Please contact the event manager Marilyn (marilyn.b.turner(at)nyeventslist.com ) below for:
- Multiple participant discounts
- Price quotations or visa invitation letters
- Payment by alternate channels (PayPal, check, Western Union, wire transfers etc)
- Event sponsorship

NO REFUNDS ALLOWED ON REGISTRATIONS
Prices may go up any time. Service fees included in pricing.
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2nd International Conference on Pharmaceutical Analysis & Analytical Chemistry

2nd International Conference on Pharmaceutical Analysis & Analytical Chemistry

About

After the fruitful execution of the International Conference on Pharmaceutical Analysis and Quality Control Strategies, Conference Series with great pride and honour announcing its International Conference on Pharmaceutical Analysis & Analytical Chemistry which is going to held in Chicago, USA during August 02-03, 2020.

Pharmaceutical Analysis 2020 serves as a podium for the interaction between experts in the area of pharmaceutical analysis and analytical chemistry around the world. We cordially invite all the eminent researchers, academicians, students, industry representatives working in these exciting areas.

This Conference is mainly focused on the theme “New paradigms in Pharmaceutical Analytical Techniques”. The conference includes workshops, symposiums, special keynote sessions conducted by eminent and renowned speakers who excel in the field of Pharmaceutical Analysis and Drug Discovery This International Pediatric Conference also encourages the active participation of young student researchers as we are hosting Poster Award Competition and Young research Forum at the conference venue.

Target Audience:

Pharmaceutical Analysis Researchers

Analytical Chemists

Noble Laureates

Directors, Presidents, CEO’s of Organizations/Companies

Pharmaceutical Associations and Societies

Academicians (Professors, Associate & Assistant professors, Deans, Directors)

Graduates and Post graduates

Sessions/Tracks

Track 1: Modern Pharmaceutical Analysis

Generally, Pharmaceutical Analysis alluded to the synthetic examination of medication atoms. Be that as it may, throughout the years, present day pharmaceutical investigation has advanced past this to envelop mix systems, high-throughput innovations, chemo metrics, micro dosing studies, scaling down and nanotechnology. These logical advances are currently being utilized in all phases of medication disclosure and the concentration of this survey will be on how these advances are being utilized inside this procedure. With new, enhanced and advancing innovations, and in addition new applications for existing innovation, the scan for new medications for the aversion and treatment of human maladies proceeds.

Track 2: Chromatography & Separation Techniques

Chromatography strategy for isolating the parts, or solutes, of a blend on the premise of the relative measures of every solute appropriated between a moving liquid streams, called the versatile stage, and a touching stationary stage. The versatile stage might be either a fluid or a gas, while the stationary stage is either a strong or a liquid. Increase in advances in Biotechnology sector augments the production of variety of valuable bio products. Molecules such as therapeutic proteins, enzymes, and other important products require combination of chromatography so as to purify them in purest form. Combination of these novel technologies minimizing the purification steps plays a crucial role for getting maximum purification of the biomolecules.

Track 3: Analytical Method Development and Validation

Analytic method development and validation are persistent and interconnected exercises directed all through the drug development process. The act of validation checks that a given method measures a parameter as planned and sets up the execution furthest reaches of the estimation. Albeit clearly conflicting, approved methods create comes about inside known vulnerabilities. These outcomes are essential to proceeding with drug development, as they characterize the rising learning base supporting the product. The time and exertion that are put into growing logically solid, hearty, and transferrable analytic methods ought to be lined up with the drug development arrange. The assets that are consumed on method validation must be constantly balanced with regulatory requirements and the likelihood for product commercialization.

Track 4: Spectroscopy and its Techniques

Spectroscopy deals with surplus of different techniques that employ electromagnetic radiation on materials in order to measure and interpret data, which is used for elucidating a variety of analytical problems. It includes absorption, emission, or scattering of electromagnetic radiation by atoms or molecules. Types of spectroscopy are IR & NIR, UV/visible, NMR, Atomic Emission Spectroscopy, Fluorescence Spectroscopy etc. Spectroscopic methods are used for Environmental Analysis, Biomedical studies, astronomy. UV-Visible Spectrometer is used for a varied range of applications.

Track 5: Pharmaceutical and Biomedical Analysis

Analytical biochemistry is the study of biochemical components found in a cell or other biological sample. This field uses a broad vary of techniques for separation, identification, quantification and practical characterization of biological molecules like nucleic acids, enzymes, proteins, pigments, carbohydrates and additional. The main ways involved in analytical biochemistry to separate the biological components are qualitative analysis techniques, chromate graphical Techniques, super molecule Estimation & Purification Techniques and medicine Techniques.

Track 6: Mass Spectroscopy: Approaches and Challenges

New mass spectrometry (MS) methods, collectively known as data independent analysis and hyper reaction monitoring. Last decade has witnessed remarkable technological advances in mass spectrometry based proteomics and Biologics. Specific advances include high throughput protein identification by multidimensional chromatography, automated tandem mass spectrometry and sequence data base searching, accurate quantification by the application of stable isotope dilution theory to protein analysis, and the targeted isolation of selected analytes by the use of highly selective chemistries.

Track 7: Bioanalysis

Bioanalysis involves the quantitative measurement of xenobiotics (drugs and their metabolites, and biological molecules in unnatural locations or concentrations) and biotics (macromolecules, proteins, DNA, large molecule drugs, metabolites) in biological systems. In the past two decades, has seen increase in the field of Biopharmaceuticals. Bioanalysis applies to the drugs used for anti-doping testing in sports, illicit purposes and Environmental concerns. The most frequently used techniques are liquid chromatography coupled with tandem mass spectrometry (LC–MS/MS) for micro molecules and enzyme-linked immunosorbent assay (ELISA) for macromolecules.

Track 8: Electro chemical and Thermo analytical techniques

Electrochemical Analysis is a powerful technique that is increasing in utility in the Pharmaceutical Industry due to its high sensitivity, speed of analysis, reduction in solvent and sample consumption, and low operating cost compared to other analytical methods. The modern Electrochemical Analytical techniques are cyclic, linear sweep, differential pulse, square wave and stripping voltammetric techniques. Thermo Analytical techniques are mainly used to detect compound purity, polymorphism, solvation, degradation, and excipient compatibility. It is extensively used in conducting Preformulation studies.

Track 9: Analytical Chemistry

Analytical Chemistry has many applications in Forensic Sciences, environmental analysis, and materials analysis. Analytical Chemistry research is mainly driven by the performance and cost. In these days, great efforts are being put to shrinken the analytical techniques to chip size. In this technology, the most used technique is lab-on-a-chip. The ongoing developments of computer automation and information technologies have broadened the analytical chemistry into a number of new biological fields.

Track 10: Preformulation Studies

Preformulation is considered as critical decision-making tool during both – drug discovery and development phase. Preformulation studies help in assessing the drugability of a molecule. To generate Preformulation data analytical techniques like Spectroscopic, Chromatographic, Thermal methods and some specific detection methods like Capillary electrophoresis are used.

Track 11: Hyphenated Techniques in Analytical chemistry

Hyphenated technique is developed from the coupling of a separation technique and an on-line spectroscopic detection technology. These techniques are mainly broadened their applications in the analysis of natural products.

Track 12: Quality Assurance and Quality Control

Quality assurance is defined as a procedure or set of procedures intended to ensure that a product or service under development meets specified requirements. Quality control (QC) is a procedure or set of procedures intended to ensure that a manufactured product or performed service adheres to a defined set of quality criteria that meets the requirements of the client or customer. The two approaches can be thought of simply as failure detection (QC) and failure prevention (QA). The ISO 9000 family of quality management systems standards is designed to help organizations ensure that they meet the needs of customers and other stakeholders while meeting statutory and regulatory requirements related to a product or service.

Track 13: Pharmaceutical Analysis Errors and Validation

Analytical errors are fundamental before submitting your report and results with the required level of confidence. However, we should have clarity regarding accuracy and precision before we are talking pharmaceutical error. Most of us believe that these terms have the same meaning but the example of arrows striking a target. Any measurement is limited by the precision of the measuring instruments and the technique and the skill of the observer. Where a measurement consists of a single reading on a simple piece of laboratory equipment, for example, a burette or a thermometer, one would expect the quantity of factors adding to vulnerabilities in that estimation to be less than an estimation which is the consequence of a multi-step process comprising of at least two weight estimations, a titration and the utilization of an variety of reagents.

Track 14: GLP and GMP Method Development, Validation and Remediation

Good manufacturing practice is the piece of quality assurance which ensures that things are reliably made and controlled to the quality standard proper to their proposed use and as required by the Marketing Authorization or item particular. GMP is stressed over both generation and quality control, consistency with this standard gives open assurance that the rights, security, and prosperity of trial subjects are ensured; predictable with the rule that have their starting point in the Declaration of Helsinki, and that the clinical information is valid.

Track 15: Biosensors

Biosensor is a device which converts the information regarding the presence of a compound into electro analytical Signal. The biosensor research areas include modern Bio specific analytical techniques. In the recent years, micro fabrication techniques have showed a significant improvement in biosensor systems. The modern methods of the biosensor discoveries range from electrochemical, electromechanical, and fluorescence-­cum-optical-based biosensors and genetically engineered microbes.

Track 16: Pharmaceutical Microbiology

Modern microbiology is unmistakably a branch of biotechnology and incorporates the customary and nucleic corrosive aspects. Pharmaceutical microbiology is the connected branch of microbiology which enables drug specialists to make pharmaceuticals from microorganisms either straightforwardly or with the utilization of some item delivered by them. Different parts of pharmaceutical microbiology incorporate innovative work for assembling of different hostile to tumours, against microbial specialists.

Track 17: Forensic Analysis

Multiply hyphenated techniques, such as gas chromatography/ mass spectrometry with retention time locking (GC/MS/RTL), liquid chromatography/time-of-flight mass spectrometry (LC/ MS/TOF), micro fluidic-based capillary electrophoretic analysis of mitochondrial DNA (mtDNA), and laser ablation inductively coupled plasma mass spectrometry (LA/ICP/MS), are able to uncover forensically germane information by providing unprecedented levels of analytical selectivity and sensitivity

Track 18: Radio Analytical Techniques

Radio analytical Techniques focuses on analysis of sample for their radionuclide content. The Radio analytical Chemistry Capability (RACC) combines radioanalytical chemistry and medium level gamma-ray spectrometry. It has wide applications in the field of forensics, atmospheric sciences, health protection, archeology, and engineering.

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