We would like to invite all the participants from all over the world to attend 10^th World Congress on Biopolymers Bioplastics during August 03-04, 2020 in Zurich, Switzerland which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.

Biopolymers are chain-like molecules made up of repeating chemical blocks and can be very long in length. Depending on the nature of the repeating unit they are made of polysaccharides, proteins of amino acids, and nucleic acids of nucleotides. The studies are more concerned to Green Composites, Biopolymer Feed Stock Challenges, Biofibers Microbial Cellulose, Biomaterials and Bioplastics. Advanced studies are being made to improvise developments in Biopolymer Technology, Waste Management, pharmaceutical and biomedical applications, Biodegrade ability, and many more.

Young Scientist Benefits

Deadline for Registrations:

Importance and Scope:

Over the past few years, global economic activities have increased a lot. This tremendous growth has raised serious problems about current important patterns of production and consumption. As the current society has increased its attention in understanding of the environmental aspects and its industrial practices, greater attention has been given to the concept of sustainable economic systems that rely on energy from undepletable source and materials. The use of Biologically derived Polymers become as an important component of this global world.

The history of Biopolymer is not a long one. Various reasons are associated with the research and development of Biopolymers. Use of Bioplastics will make a tremendous change and will help rid of the conventional plastics , which is a welcome change.

Why to attend?

Biopolymers 2020(WCBB-2020) offers a fantastic opportunity to meet and make new contacts in the field ofBiopolymer, Bioplastic, Biocomposites, Biomaterials,Polymer Science,Biomedical and Tissue Engineering by providing collaboration spaces and break-out rooms with tea and lunch for delegates between sessions with invaluable networking time for you. It allows delegates to have issues addressed on Biomaterials and Biocomposites by recognized global experts who are up to date with the latest developments in the respective field and provide information on new techniques and technologies. This InternationalBiopolymers and Bioplasticsconference will featurerenowned keynote speakers, plenary speeches,young research forum,poster presentations, technical workshops and career guidance sessions.

Target Audience:

With the successful journey of Biopolymer Congress 2019, London, UK, we are proud to announce that we have planned to continue its series at Zurich, Switzerland in August 03-04, 2020.

On this auspicious occasion, we invites all the participants across the globe to take part in the International Scientific Meet 10th World Congress on Biopolymers Bioplastics during August 03-04, 2020 Zurich, Switzerland, with the theme Solution for current future global challenges Biopolymers 2020.

Right now we are in huge global crisis of Plastic Pollutions, Ocean Pollutions and these are the main reason for Climate Change. Its already started to destroy our food chain. We have to act before its too late to save ourselves and our future.

Biopolymers 2020offers a fantastic opportunity to meet and make new contacts in the field ofBiomaterials,Polymer Scienceandengineering, by providing collaboration spaces and break-out rooms with tea and lunch for delegates between sessions with invaluable networking time for you. It allows delegates to have issues addressed on Bio materials by recognizedglobal expertswho are up to date with the latestdevelopmentsin the Bio materials field and provide information on new techniques and technologies. ThisInternationalBiopolymer Materials conference will featurerenowned keynote speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions

Track 1:Biomaterials and Bioceomposits

Biomaterialsare those materials which have been engineered to interact with biological systems for used in basically medical purpose. to augment or replace a natural function. As a science,its been about fifty years old. Study of biomaterials is calledbiomaterials scienceorbiomaterials engineering. Many companies investing huge amounts of money for the development of new products. It holds within elements ofmedicine,biology,chemistry,tissue engineeringandmaterials science.

ABiocompositeis acomposite materialcomposed of matrix(resin) and a reinforcement ofnaturalfibers. These kinds of materials always providing biocompatibility. The matrix phase is formed bypolymersderived fromrenewableandnon-renewable resources. The matrix is important to protect the fibers fromenvironmental degradationand mechanical damage, to hold the fibers together and to transfer the loads on it.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track 2:Advanced Polymers

Polylactide(PLA) the most promising one ofBiopolymerthese are a type ofplasticswhich is being manufactured frompetrochemicals, generated fromsustainablefeed stocks such as sugar, starch or Cellulose. Till date, the use of Biopolymer, includes the first generation PLA, has been limited by their Physical properties and relatively high cost to manufacture. Next generation Biopolymer, are thePlasticscomponent fabrication,Polysaccharidessecond generationPLA, are to be cheaper and to improve their performance and a wide variety of application to capture an increasing share of the various markets for Biopolymer. Innovations has already achieved significant success with its early investments its $1.5m investment in obesity drug developer return up to $22m, following its sale for $100m in 2013, while the sale of a small moleculedrug discoverycompany, resulted in Innovations realizing $9.5m, a 4.7 return on investment. In year 2015, Innovations invested $14.0m in 20 ventures, helping to launch three new companies.

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Biopolymer Societies and Associations

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 3:Bioplasticsand its Applications

Bioplasticare plastics derived from renewable biomass sources, such as vegetable fats and oils, corn starch, or microbiota.Bioplasticcan be made from agricultural by-products and also from usedplasticbottles and other containers using microorganisms. Common plastics, such as fossil-fuel plasticsare derived frompetroleumornatural gas. Production of such plastics tends to require morefossil fuelsand to produce moregreenhouse gasesthan the production ofbiobased polymers(Bioplastic). Some, but not all, Bioplastic are designed to biodegrade.Biodegradable plasticscan break down in either anaerobic or aerobic environments, depending on how they are manufactured. Bioplastic can be composed of starches, cellulose,Biopolymer, and a variety of othermaterials.

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Bioplastics Societies and Associations:

Europe:Society for Biomaterials;Society of Chemical Engineers;Society of Chemical Industry;Society of Polymer Science;The Chemical Engineering Graduate Student Association (ChEGSA);The polymer society;The Scandinavian Society for Biomaterials

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 4:Ocean Plastics

Ocean plasticresearch is a relatively new field, the billions upon billions of items of plasticwastechoking our oceans, lakes, and rivers and piling up on land is more than unsightly and harmful to plants and wildlife. About 8 million metric tons ofplasticare thrown into the ocean annually. Of those, 236,000 tons aremicro plastics tiny pieces of broken-down plastic smaller than our little fingernail. There is more plastic than natural prey at theseasurface of theGreat Pacific Garbage Patch, which means that organisms feeding at this area are likely to have plastic as a major component of their diets. For instance, sea turtles by-caught in fisheries operating within and around the patch can have up to 74% (by dry weight) of their diets composed of ocean plastics. By 2050 there will be more plastic in the oceans than there are fish (by weight).

Green Energy|Biotechnology|Green Composite|Biomaterials|Chitin and Chitosan|Applications of Biopolymer|Solar cells|Biochemistry|Biocomposites|Ocean Plastics|Tissue Engineering|Regenerative Medicine|Polymer Coatings|Biofilm|Monomers

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Ocean Plastics Societies and Associations

Europe:Society for Biomaterials;Society of Chemical Engineers;Society of Chemical Industry;Society of Polymer Science;The Chemical Engineering Graduate Student Association (ChEGSA);The polymer society;The Scandinavian Society for Biomaterials

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 5:Natural polymers

Natural polymers include theRNAandDNAthat are so important in genes and life processes. In fact, messenger RNA is what makes possibleproteins,peptides, andenzymes. Enzymes help do the chemistry inside living organisms and peptides make up some of the more interesting structural components of skin, hair, and even the horns of rhinos. Other natural polymers includepolysaccharides(sugar polymers),Cellulose, starch,lignin,chitinandpolypeptideslike silk, keratin, and hair. Naturalrubberis, naturally a natural polymer also, made from just carbon and hydrogen. These materials and their derivatives offer a wide range of properties and applications. Natural polymers tend to be readilybiodegradable, although the rate of degradation is generally inversely proportional to the extent of chemical modification. US companies demand for natural polymers is forecast to expand 6.9 % annually to $4.6 billion in 2016.Cellulose ethers, methyl cellulose, will remain the largest product segment. This study analyses the $3.3 billion US naturalbiopolymer industries. It presents historical demand data for the years 2001, 2006 and 2011, and forecasts for 2016 and 2021 by market.

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Polymers Societies and Associations

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 6:Green Composites in Biopolymer

Wholegreencompositesare the composite materials that are made from bothrenewable resourcebased polymer (biopolymer) andbio-filler. Whole green composites arerecyclable, renewable, triggered biodegradable and could reduce the dependency on thefossil fuelto a great extent when used in interior applications. Whole green composites could have major applications in automotive interiors, interior building applications and majorpackagingareas. Despite the large number of recent reviews on green composites defined as Biopolymer orbio-derivedpolymers reinforced withnatural fibersforbioprocessingof materials, limited investigation has taken place into the most appropriate applications for these materials. Global composite materials industry reached $19.6B in 2011, marking an annual increase of 8.2% from 2010 and driven by recovering of majority of markets. Market value of end use products made with composites was $55.6B in 2011. North American composites industry accelerated by 9 % in 2014, Europe increased by 8%while Asia grew by 7% in 2015. By 2017, composite materials industry is expected to reach $ 29.9B (7% CAGR) while end products made with composite materials market value is expected to reach $85B Global Automotive composite materials market was estimated to be around $ 2.8 B in 2015, and forecast to reach $ 4.3 B by 2017 @ CAGR of approx. 7%.

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Green Composites Societies and Associations:

Europe:Society for Biomaterials;Society of Chemical Engineers;Society of Chemical Industry;Society of Polymer Science;The Chemical Engineering Graduate Student Association (ChEGSA);The polymer society;The Scandinavian Society for Biomaterials

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Track 7: Synthetic polymers

Synthetic polymersare human-madepolymers. They can be classified into four main categories: thermoplastics, thermosetting, elastomers, andsyntheticfibers. They are commonly found in a variety of consumer products. synthetic polymers are used in home purpose and mainly in daily basic needs in house purpose. A wide variety of synthetic polymers are available with variations in main chain as well as side chains. The back bones of common synthetic polymers such as polythene, polystyrene and poly acrylates are made up of carbon-carbon bonds, whereas hetero chain polymers such as polyamides, polyesters, polyurethanes, polysulfides and polycarbonates have other elements (e.g. oxygen, sulfur, nitrogen) inserted along to the backbone. Alsosiliconforms similar materials without the need of carbon atoms, such assiliconesthrough siloxane linkages; these compounds are thus said to beinorganic polymers.Coordination polymersmay contain a range of metals in the backbone, with non-covalent bonding present.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track 8: Organic polymers

Organic polymers are macromolecules composed of many repeating monomer units. Both synthetic and natural polymers play a crucial role in everyday life. Polysaccharides, polypeptides, and polynucleotides are the main types of biopolymers in living cells. These polymers are synthesized by enzyme-mediated processes in cells. In general, synthetic polymers are derived from monomers that contain either a multiple bond, or two or more functional groups, or a three-to seven- membered ring.. The chemical properties of the polymers are derived from their monomer units, while the physical properties of polymers are different. Polymers, depending on their physical properties, are characterised as thermoplastics, thermo sets, elastomers and fibres. Organic polymers have wide variety of uses, for example: polystyrene resins are used in the production of home electronics and appliances; nylon-6 is used in textile and plastic industries. Organic polymers such as polyethylene terephthalate are in the manufacture of popular PET bottles. Others such as neoprene are used in shoe soles and wet suits, polyvinyl chloride in pipes and Teflon in non-stick pans.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track 9:Linear polymers:

Linear Polymers are polymers in which monomeric units are linked together to form linear chains. These linear polymers are well packed and have high magnitude of intermolecular forces of attraction and therefore have high densities, high tensile strength and high melting points. Linear polymers have a specific set of physicochemical and mechanical properties. The most important properties are the ability to form highstrength anisotropic, highly oriented fibers and films; the capacity for large, slowly developing reversible deformations; the ability to swell in the hyperelastic state before dissolving; and the high viscosity of solutions. This set of properties results from the high molecular weight, the chain structure, and the flexibility of the macromolecules. In the transition from linear to branched, sparse threedimensional networks, and finally to dense cross linked structures, these properties become decreasingly pronounced. Strongly crosslinked polymers are insoluble, infusible, and incapable of hyperelastic deformations.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track 10:Cross linked polymers:

cross-liked polymers are a kind of polymer, whose molecular chains are binded with each other. This bond is can either be a chemical or a physical one, but usually when we talk about a cross-linked polymer, we mean chemical bonds.

Cross-linked polymers, such as thermosets and elastomers, behave completely different than their counterparts, thermoplastic polymers. In cross-linked systems, the mechanical behavior is also best reflected by the plot of the shear modulus versus temperature. Figure 1 compares the shear modulus between highly cross-linked, coarsely cross-linked and uncross-linked polymers. The coarse cross-linked system, typical of elastomers, has a low modulus above the glass transition temperature. The glass transition temperature of these materials is usually below -50 C, so they are soft and flexible at room temperature. In contrast, highly crosslinked systems, typical in thermosets, show a smaller decrease in stiffness as the material is raised above the glass transition temperature; the decrease in properties becomes smaller as the degree of cross-linking increases .crossed linked polymers are usually contains rubber in terms of flexibility. One of the most important properties of Cross-linked Polymers is that, they are thermosetting, which means, they cannot be melted or dissolved. So it can be harder for us to process this kind of polymer. They are considered as ideal dressings as they clean, rehydrate dry and necrotic tissues and initiate autolytic debridement. It has been reported that they promote moist healing and are used to treat venous leg ulcers.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track11:Amorphous polymers:

Amorphous polymers may exist in three physical states: vitreous, hyperelastic, and viscous-flow. Polymers with a low temperature (below room temperature) for the transition from the vitreous to the hyperelastic state are called elastomers, and polymers with high transition temperatures are called plastics. The properties of polymers vary within a broad range, depending on chemical composition and the structure and mutual arrangement of the macromolecules. Thus 1,4-cis polybutadiene, which is composed of flexible hydrocarbon chains, is elastic at about 20C and undergoes transition to the vitreous state at 60C. Polymethyl methacrylate, which is composed of more rigid chains, is a hard, vitreous substance at about 20C and undergoes transition to the hyperelastic state only at 100C. Cellulose, which is a polymer with very rigid chains linked by intermolecular hydrogen bonds, cannot exist at all in the hyperelastic state at temperatures below its decomposition point. Great differences may be seen in the properties of polymers even if the differences in the macromolecular structures are not great at first glance. Thus, stereoregular polystyrene is a crystalline substance with a melting point of about 235C, whereas its nonstereoregular (atactic) analogue is completely incapable of crystallizing and softens at about 80C.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Track 12:Natural polymers

Natural polymers include the RNA and DNA that are so important in genes and life processes. In fact, messenger RNA is what makes possible proteins, peptides, and enzymes. Enzymes help do the chemistry inside living organisms and peptides make up some of the more interesting structural components of skin, hair, and even the horns of rhinos. Other natural polymers include polysaccharides (sugar polymers), Cellulose, starch, lignin, chitin and polypeptides like silk, keratin, and hair. Natural rubber is, naturally a natural polymer also, made from just carbon and hydrogen. These materials and their derivatives offer a wide range of properties and applications. Natural polymers tend to be readily biodegradable, although the rate of degradation is generally inversely proportional to the extent of chemical modification. US companies demand for natural polymers is forecast to expand 6.9 % annually to $4.6 billion in 2016. Cellulose ethers, methyl cellulose, will remain the largest product segment. This study analyses the $3.3 billion US natural biopolymer industries. It presents historical demand data for the years 2001, 2006 and 2011, and forecasts for 2016 and 2021 by market.

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Polymers Societies and Associations

Europe:Royal Society of Chemistry;Society for Analytical Chemistry;Chemical Society;Royal Institute of Chemistry;Socit chimique de France;Deutsche Chemische Gesellschaft zu Berlin;Danish Chemical Society;Society of Chemical Industry

USA:American Chemical Society;Society of Chemical Industry (American Section);Society of Chemical Manufacturers and Affiliates;Chemical Society of Peru;Canadian Society of Clinical Chemists;Chemical Society of Mexico;Brazilian Chemical Society;Chemical Institute of Canada

Asia- Pacific:Chemical Society of Japan;Royal Australian Chemical Institute;Indian Chemical Society;Korean Chemical Society;Chemical Society of Pakistan;Iranian Chemists Association;Pan Africa Chemistry Network

Biopolymer as Materials

Polymer Nano composites(PNC) are made of a polymers orcopolymershaving nanoparticles or Nano fillers dispersed in the polymer matrix. The plastic used for food packaging and non-food applications is non-biodegradable, and also of valuable and scarce non-renewable resources likepetroleum. With the current research on exploring the alternatives to petrol and priority on reduced environmental impact, research is increased in development ofbiodegradable packagingfrombiopolymer-based materials. Abiomaterialis a surface, or construct that interacts with biological systems. These biomaterials are about fifty years old. The study of such materials is called biomaterials science. It has been seen a strong growth over its past period, were many companies have been investing large amounts in the development of new products. Biomaterials science is the elements of medicine, biology, chemistry,tissue engineeringand materials science. The Biomaterial market over the forecast period of 2016-2021 market for biomaterials is likely to predict to USD 70.90 Billion in 2012 and is steady to grow at a CAGR of 16.0% from 2016 to 2021 to reach USD 149.17 Billion by 2021.

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Biopolymer Societies and Associations:

Europe:European Polymer Federation;European Society for Biomaterials; Federation of European Biochemical Societies;Federation Of European Materials Societies;Federation of European Materials Society;Belgian Polymer Group (BPG);Polymer processing society;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 9:Biopolymer for Tissue Engineering and Regenerative Medicine

Tissue engineeringis the immense area of research in recent years because of its vast potential in the repair or replacement of impairedtissuesand organs. The present research will focus on scaffolds as they are one of the three most important factors, including seed cells, growth hormones and scaffolds intissue engineering. Among the polymers used in tissue engineering,polyhydroxy esters(such as PLA, PGA, and PLGA) have extensive attention for a variety of biomedical applications. Besides, PCL has been widely used as a tissue engineering scaffold.Scaffoldshave been used for tissue engineering such as bone, cartilage, ligament, skin, vascular tissues, neural tissues, and skeletal muscle and as vehicle for the delivery of drugs, proteins, and DNA. The worldwide market fortissue engineeringandregeneration productsis expected to reach USD 11.5 billion by 2022.

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Tissue Engineering Societies and Associations:

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 10:Biopolymer in Biofibers Microbial Cellulose

Cellulosethe most generous natural biopolymer on the earth, synthesized by plants, algae and also some species of bacteria andmicroorganisms. The Plant derivative cellulose andBlack Carbon (BC)have the same chemical composition but differ in structure and physical properties. The BC network structure comprises celluloseNano fibrils3-8 nm in diameter, and the crystalline regions are been the normal cellulose I. The properties such as theNano metricstructure, unique physical and mechanical properties together produce higher purity that lead to great number of commercial products.Lignocellulosicagricultural byproducts are an extensive and cheap source for cellulose fibers. Agro-basedBiofibershave the architecture, properties and design that make them suitable for use as composite, textile, pulp and paper manufacture. In addition, Biofibers can be used to producebiofuel, chemicals, enzymes andfood. The global bio-fiber composites market reached $ 3.8 billion in 2016, with CAGR of 10% in last three years. Among them, the automotive and construction industry were the greater application segments. By 2023, this natural fiber composite market is expected to reach $7.6 billion (7.9% CAGR).

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Biopolymer Societies and Associations:

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 11:Biodegradable polymers

Biodegradable polymers are a specific type of polymer that breaks down after its intended purpose to result in naturalby-productssuch as gases (CO2, N2), water,biomass, andinorganic salts. These are found both naturally and synthetically made, and largely consist of ester, amide, andether functional groups. Their properties and breakdown mechanism are determined by their exact structure. These polymers are often synthesized by condensation reactions, ring openingpolymerization, and metal catalysts. There are vast examples and applications ofbiodegradable polymers.

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Biodegradable polymer Societies and Associations:

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 12:Polymer Processing and Modeling

Polymer processing is the technique of converting raw polymeric materials into completed products having desirable shape,microstructuresand properties. The raw form of polymers is available initially aspelletswhich are heated to its glass transition temperature to form into a viscous fluid. The fluid is then subjected tomouldingand rapidsolidificationby cooling which results in the development of the required shape and microstructures. This method has been a standard since forthermoplasticprocessing since the 1960s.Thermosettingplastics utilize a similar processing method but with additives and cross-linking agents. The crosslinking formed after cooling are and irreversible and re-heating will not be effective in liquefying the polymers.

Polymers modeling process has become prominent since the last decade, especially for processing soft materials. New sampling methods are developed to increase the exploration of configuration space, which has been still continues to be of paramount importance in the determining the properties of polymeric materials. The time duration and scaling issues are being addressed with new coarse-grained methods, while more traditional methods are being applied in increasing chemical complexity and reality.

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USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 13:Synthetic polymers, Nanopolymers and Nanotechnology

Syntheticpolymers are man-made polymers. For utility, it can be classified into four main categories:thermoplastics,thermosets,elastomersandsynthetic fibers. These polymers are commonly found in a variety of consumer products such as money, glue, etc.

In the field of Polymer science andnanotechnology,Nano polymersandnanoclayshave gained massive interests from researchers and in recent literatures. Nanotechnology is included in the most popular areas for todays research and development and basically in all areas of technical disciplines. This also includes polymer science, which includes an wide range of sub-fields. Nanopolymers are used in microelectronics and the micro-devices are now below 100 nm. Both Nanopolymers and Polymer based Biomaterials are used for drug delivery, miniemulsion particles, fuel cell electrode polymer bound catalysts,polymer films, inprint lithography,electrospun nanofibersand polymer blends. Nanopolymers include various physical properties that are applied in composite reinforcement for imparting abilities to the composite such as barrier strength, electro-optical properties, flame resistance. Recent enthusiasm in polymer matrix based nanocomposites was emerged initially with interesting observations involving exfoliated clay and more recent studies with carbon nanotubes,carbon nanofibers, exfoliated graphite (graphene), nanocrystalline metals and a host of additional nanoscale inorganic filler orfiber modifications.

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Bioinformatics Societies and Associations:

Europe:Applied Chemical Engineering Society (ACES);Association for the Development of Biomaterials;French Chemical Society;Bio-Process Systems Alliance (BPSA);British Plastics Federation;European Council for Plasticizers and Intermediates;European Federation of Chemical Engineering;

USA:American Chemical Society;American Chemical Society;American Coatings Association;Brazilian Polymer Association;Division of Polymer Physics;American Chemical Society(ACS);American Physical Society Division of Polymer Physics (APS DPOLY);

Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 14:Recycling Waste management of Biopolymer

Biobased polymerslead not only on the raw materials side but also on the other side through certain promising end-of-life (EOL) options. Exclusively waste disposal with energy recovery has an added advantage, which lies in benefitingcarbon neutral energywhile allowing multiple uses of possiblerecycling. The recent commission after research said that all of the composts containbiodegradable polymersmaterials could be classified using a risk assessment system at a higher toxicity position. Biodegradable polymers waste can serve foraerobic degradation, composting, oranaerobic digestion. When Biopolymer are propagated or digested, their individual elements are recycled naturally in particular in their carbon and hydrogen content. The greater segment of the market, packaging, is expected to reach nearly $980 billion in 2022. The second-largest market segment, made up offibers/fabricsis expected to increase in volume from an estimated 435 million pounds in 2016 to USD 93.27 billion by 2025, growing at a CAGR of 12.1%.

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Asia- Pacific:ASME BioProcessing Equipment;Australian Society of Biochemistry;Biochemistry Society;Bioenvironmental Polymer Society;IAENG Society of Chemical Engineering;Indian Institute of Chemical Engineers (IIChe);

Track 15:Biopolymer Feed Stock Challenges Opportunities

Bio related products can restorepetroleum-related products, new methodologies, where various types of lignocellulosicbiomassexperience bioprocessing to commercially important products, must be devised. A relatively low value lignocellulosicbiomassthat could be used to produce bio based co-products is grass. Currently, many grasses are largely took the advantage for cropping by livestock or harvested as hay. To exploit this opportunity, the feasibility of using microbialbioconversionfor the production of chemicals andpolysaccharide gumsfrom thefermentable sugarspresent inhydrolysatesof various grass species. The production of 2.5 g/l was obtained when the cells were grown on medium containing 70 mM sucrose and 0.2% (w/v) Casamino Acids. It enriched medium is maximum Biopolymer production of up to 3.4 g/laws was obtained.

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Track 16:Future Scope of Biopolymer

Futures ofBiopolymerdemand the manufacturer for new materials is overwhelming. However the cost-effectiveness of the materials must progress as they are contributed specifically for sustainable development. Applications by the use of new materials should utilize the properties of thesepolymers, and the products should be developed based on those properties. They are onset to arrive as a result to be more responsible in taking care of the world we live in. Thus, the recent development for thebio-basedproducts rather than petroleum ornatural gasbased products. The use of Biopolymer could markedly increase as more reliable form for the development and the cost to manufacture theseBioplasticcontinues to go fall.Bioplasticcan be replaced with conventional plastics in the field of application which can be used in various categories such as food packaging,plastic plates, cups, cutlery,plastic storagebags, storage containers or other plastic orcomposite materialsitems you are buying and therefore can help in making environment sustainable. Bio-based polymers are adjacent to the conventional polymers than ever before. Now a day,biobased polymersare commonly found in various applications from commodity to hi-tech applications due to advance research development inbiotechnologyand public awareness.

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Track 17:Polymer Physics and Chemistry

Polymerphysicsdeals with the structure and properties of polymers and also the reaction kinetics of polymerization of monomers and degradation of polymers that are in the form of solids, glasses, elastomers, gels, solutions, melt and semi-crystalline. These properties are of great interests in polymer technologies such asoptoelectronics,coatings, medicine, food and pharmacy. Polymer chemistry is a vast field that involves the study of monomers and polymerization and the synthesis of new materials from various combinations and characteristics. The composition ofmonomersand the applied chemical and processing techniques can largely affect the properties the polymer will possess at the end of the production.

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Track 18:Bioeconomy and future of bio-based materials

TheBioeconomyis the production of renewable biological resource and the conversion of these resources and waste into value products, like food,bio-based products, feed and bioenergy. These sectors have a strong potential for innovation due to their wide range of sciences that allows for industrial technologies. The shift to a feasible bio-based economy implies that the historically developed structures and the traditional way of life need to be completely reconsidered. Therefore, it is critical to bring into line researches into a broad basis to the solution of the budding societal challenges and to progressively integrate social and economic sciences, as well as cultural and humanities disciplines. The communal transition towards a bioeconomy raises questions around the ethical fundamentals as of the political and institutional framework conditions, in short, the regulating resources of such a comprehensive change.

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Theme: Biopolymers: A path towards sustainable future

Summary:

Biopolymers simply are polymers that are obtained from living organisms and are completely biodegradable. Since these are composed out of living beings, they are completely neutral towards carbon and can be easily recycled or renewed. Biopolymers do not create any carbon dioxide pollution because crops absorb the CO₂ emitted by them instead of getting released in the atmosphere. There are four different kinds of biopolymers- sugar based biopolymers, cellulose based biopolymers, synthetic based biopolymers, and natural polymers. Market is changing rapidly with the ongoing expansion of the industry. Advancement in the technology has provided todays businesses with multifaceted advantages resulting in daily economic shifts. Thus, it is very important for a company to comprehend the patterns of the market movements in order to strategize better. An efficient strategy offers the companies with a head start in planning and an edge over the competitors.

The organizing committee is gearing up for an informative conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the Biopolymers-2020, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Biopolymers-2020 organizing committee look forward to meeting you in Zurich, Switzerland.

Importance Scope:

Polymers are primarily used for their advantages being chemically inert, lightweight, durable, comfortable and hygienic, and submit versatility of shape and size. It is undeniable that the introduction and advancement in the technology of synthetic polymer‐based petroleum have brought many benefits to humanity.But nevertheless, to be synthetic compounds, nonbiodegradable and based on petroleum, use poses serious ecological problems, mainly due to the environmental pollution they cause, by manufacturing and incineration as its contribution to the generation and accumulation of waste. The effects of pollution from nonbiodegradable plastics have been found in both terrestrial ecosystems and water, which has changed behavior, morphology and physiology of individuals, the distribution and abundance of populations, the structure of communities and dynamics of ecosystems. The increasing incorporation of these materials and its impact on the environment are due largely to having resistance to corrosion, weathering, and degradation by microorganisms.

Why Zurich :

Zurich is thelargest cityinSwitzerland and the capital of thecanton of Zrich. It is located in north-central Switzerland at the north-western tip ofLake Zrich. Zrich is a leadingglobal cityand among the worlds largest financial centres despite having a relatively small population. Zrich is at the core of a constantly expandingmetropolitan areaparts of central, northern, and easternSwitzerland. Zurich city centre and other cities looking like historical monuments and place where to develop eco-friendly to protect from the global warming.The city is home to many financial institutions and banking companies. Many of Switzerlands research and development centres are concentrated in the Greater Zrich area and the low tax rates and canton funding subsidies attract overseas companies to set up their headquarters or finance treasury services in the city.The Zurich people and the government both are planned to control the pollution for future generation so they planned to use different methods to control the pollution.

According to the survey Zurich is the Best quality of lifein the world as well as in European countries. Some examples are the new disinfection section of the public city hospital in Trieml, the continued optimisation and creation of public transportation, enlargement of the bicycle-only network, research and projects forrenewable energyand enclosure of speed-ways.

Why to attend???

The greatest benefits of attending an International or professional conference are the opportunities to build your network and increase your awareness of new trends happening in your area of interest. I had the pleasure of attending some great presentations during the conference. Some of these presenters shared cutting-edge research on entrepreneurship, marketing, organizational development, technology, commerce and leadership. These research topics were often focused on a particular population, ethnic group or business culture that represented multiple countries. This allowed me to learn about all of the new things that are developing in other countries while expanding my current knowledge within my area of expertise.

Major Biopolymer Companies around the Globe:

Target audience:

In total, percentage of attendees from various sectors as follows:

Market Analysis:

A simple means of forecasting themarket growthrate is toextrapolatehistorical data into the future. While this method may provide a first-order estimate, it does not predict importantturning points. A better method is to studymarket trendsand sales growth in complementary products. Such drivers serve as leading indicators that are more accurate than simply extrapolating historical data. Important inflection points in the market growth rate sometimes can be predicted by constructing aproduct diffusion curve. The shape of the curve can be estimated by studying the characteristics of the adoption rate of a similar product in the past. Ultimately, many markets mature and decline. Some leading indicators of a markets decline include market saturation, the emergence of substitute products, and/or the absence of growth drivers.

According to this latest research, the global food beverage industry is likely to exhibit growth rates of close to 8% CAGR over the estimated timeframe. The overall food beverage business in 2005 was roughly around USD 8 trillion and reached approximately USD 15 trillion in 2015 a trend driven by, among other things, a growing middle class population with increased consumer spending power in Asia Pacific and Latin America.

The biopolymer film industry is also positively influenced by heightened consumer awareness of options such as food packaging films derived from bio-based sources such as polysaccharides (starch, cellulose) and proteins (soy, whey gelatine). Also, the introduction of edible biopolymer films for the food industry provide added growth over the estimated timeframe.

The global biopolymers market is expected to reach USD 10,447.2 million by 2021, growing at a CAGR of almost 17% through the forecast period. Western Europe comprises the largest market segment, occupying 41.5% of the market, with the maximum incremental growth expected to originate from the region.

Biopolymers 2019

Past conference on Biopolymers 2019:

Biopolymers 2019witnessed an amalgamation of peerless speakers who enlightened the crowd with their knowledge and confabulated on various new-fangled topics related to the field of biopolymers. The highly exalted conference hosted byConference Series LLC LTDwas marked with the attendance of renowned and brilliant researchers, business delegates and talented student communities representing more than 20 countries around the world. The conference has tried grounding every aspect related to biopolymer, covering all the possible research areas and crux.

Biopolymersare chain-like molecules made up of repeatingchemical blocksand can be very long in length. Depending on thenatureof the repeating unit they are made ofpolysaccharides,proteins of amino acids, andnucleic acids of nucleotides. The studies are more concerned toGreen Composites,Biopolymer Feed Stock Challenges,Biofibers Microbial Cellulose, Biomaterials and Bioplastics. Advanced studies are being made to improvise developments in Biopolymer Technology,Waste Management,pharmaceutical and biomedical applications,Biodegrade ability, and many more.

We are thankful to all our speakers for encouraging and supporting us to conduct the conference and catapulting the same to pinnacle of success.

The Organizing Committee would like to thank the Session Chair Marceliano B. Nieto, TIC Gums, USA for his contributions which resulted in smooth functioning of the conference.

A series of invited lectures by Honourable guests and members of the Keynote Forum marked the commencement of the event. Prominent speakers likeGeoffrey R. Mitchell, Centre for Rapid Product Development, Polytechnic of Leiria, Mikael S. Hedenqvist, KTH Royal Institute of Technology in Stockholm Sweden, and Marcel Van Berkel, Polymerization shared facility, Netherland gave their fruitful contributions in the form of highly informative presentations and made the conference a top notch one.

Conference Series LLC LTD is prerogative to thank theOrganizing Committee Members, Keynote speakers, Chair and Co-chairs on transcribing the plenary sessions in a diversified and variegate manner to make this conference an enviable artefact

9^th world congress on Biopolymers Bioplasticswould not have reached the pinnacle if not with the support of International, multi-professional steering committee and coordination of the Journal of Bioremediation Biodegradation, Journal of Advanced Chemical Engineering, Journal of Material Sciences Engineering; hence, we express our deep sense of gratitude.

After the successful completion ofBiopolymers 2019we are glad to announce our next upcoming conference which is going to be held in Zurich, Switzerland.

10^th World Congress and Biopolymers 2020 which is going to be held during August 03-04, 2020 Zurich Switzerland with the theme Biopolymers A path towards sustainable future.

Mark your calendars; we are hoping to see you soon!

Let us meet again @Biopolymers 2020.

Conference Date August 03-04, 2020

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