Technical Divisions Collaborate with scientists in your field of chemistry and stay current in your area of specialization. Explore the interesting world of science with articles, videos and more. Recognizing and celebrating excellence in chemistry and celebrate your achievements.
ACS Scholars Scholarships for underrepresented minority students majoring in undergraduate chemistry-related disciplines. Funding to support the advancement of the chemical sciences through research projects. ACS Travel Award Learn more about travel awards for those attending scientific meetings to present the results of their research. Polymer chemists study large, complex molecules polymers that are built up from many smaller sometimes repeating units.
Polymer chemists are unique within the chemistry community because their understanding of the relationship between structure and property spans from the molecular scale to the macroscopic scale. Polymer chemical professionals create, study, and manipulate the characteristics of polymers to create materials with specific chemical, biological, and physical properties.
Polymers permeate every aspect of daily life, and it is difficult to imagine society without synthetic and natural polymers. Polymer products can be lightweight, hard, strong, and flexible, and may have special thermal, electrical, or optical characteristics. Because of their low cost, high specificity, and adaptability, polymers have a very wide range of applications. A polymer can be an end product in itself, or it can be an ingredient that changes the properties of another product.
The majority of polymer chemists work in industry, and focus on the end-use application of products, with an emphasis on applied research and preparation. Industrial polymer chemists need to adopt a business outlook and understand the commercial applications of the polymers they are developing and the needs of the market they are serving.
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Employers recognize the importance of a solid education in the fundamentals of chemistry, as well as the value of the interdisciplinary degree available through programs in polymer science. Materials science and surface science are related fields, as is biochemistry when studying biopolymers such as proteins, DNA, RNA or polysaccharides. While much research and product development in industry is product oriented, it requires scientists with a grasp of the foundations of chemistry, creativity, the ability to work together, and enjoy seeing the practical applications of their work. It is, however, a very interdisciplinary field, so education in the more traditional areas of physical, organic, inorganic, biological or analytical chemistry, as well as physics and engineering principles, will serve one well to meet the challenges being addressed in the field today.
Although most polymer chemists work on applied research and development, there are opportunities for fundamental research mainly in universities and federal laboratories on the theory of polymers in solid and solution states, on the synthesis of new polymer structures, and on the mechanical, electronic, optical, biological, and other properties those new polymers will have.
Fundamental polymer research is inherently interdisciplinary, spanning chemistry, physics, engineering, and even biological aspects. When theory predicts that a new polymer structure will have certain properties, synthetic chemists will devise ways to make the structure, and scientists can measure those properties. Essentially all major areas of chemistry may employ polymer scientists and require an understanding of the fundamentals of macromolecules. Polymer chemistry is highly practical and used in many industries, including the following. Adhesives are part of everyday life.
They have evolved from the early, lower performance glues made from natural products to the versatile high performance adhesives used today. Adhesives are used to produce the multi-layer films used in food packaging to extend shelf life, and they are a critical component of the tamper-proof packages, which ensure the safety of over the counter medicines.
Adhesives may need to be very flexible for use in label and tape applications, or to demonstrate high strength and long-term durability to bond the different metals and composites present in modern automobiles and aircraft. Fuller all work in this field, some globally and others regionally for more specialized applications.
Polymers are used in everything from seed coats to enhance germination to containers holding fresh produce in the grocery store; from mulch films to control weeds and conserve water to plastic pots in greenhouses. Sustainable agriculture has evolved to maximize land use and conserve natural resources and polymers, in the form of plastics, help this goal. However, the increased use of plastics designed for long term usage but used in short-term applications creates a disposal and environmental issue.
Current research focuses on using natural polymers i. The discovery of electrically conducting conjugated polymers in the late s launched efforts to use polymers in electronic applications. The excellent light harvesting ability of conjugated polymers makes them ideal candidates for use in organic solar cells. The ability to solution process and roll-to-roll print conjugated polymers hold promise for lowering the manufacturing costs of solar cell technology.
Research in this field largely focuses on the design, synthesis and processing of polymeric materials to improve device performances. There are many applications for conjugated polymers beyond solar cells, including light emitting diodes, field-effect transistors and sensors.
Electrically conducting conjugated polymers have started to appear in commercial products, and with the promise of improved performance there are many opportunities for this emerging technology. Track 1. Advanced characterization of polymers. Polymer characterization is the analytical branch of polymer science which includes determining molecular weight distribution, the molecular structure, the morphology of the polymer , thermal properties, mechanical properties, and any additives of Polymeric materials.
Polymer characterization is done with a variety of experimental approaches. Track 2. Structural and Functional Properties of Polymers. Mainly Polymers are composed of compounds of carbon, hydrogen and hydrocarbons. These are specifically made of carbon atoms bonded together, into long chains and one to the next other that are called the backbone of the polymer.
Whereas the Functional polymers are those contains functional groups that have a greater polarity or reactivity than a classic hydrocarbon chain which improves their segregation, or reactivity. Physical properties of a polymer such as its strength, flexibility, reactivity, Good corrosion resistance, lose dimensional tolerances, Poor tensile strength and transparency or in different colours depends on Chain length, Side groups, functional group attached and Cross-linking.
Track 3: Polymerization kinetics and mechanisms. Polymer synthesis , also called polymerization, polymer synthesis occurs via a variety of reaction mechanisms that vary in complexity due to functional groups present in reacting compounds and their inherent steric effects. Both synthetic and natural polymer are created via polymerization of many small molecules, known as monomers,.
Track 4: Noval Applications of Polymers. Today, polyme r are commonly used in thousands of products as plastics, elastomers, coating, and adhesive, no wonder polymer are found in everything from compact discs to high-tech aerospace application. Polymer testing, consultancy for plastics and additives with applications includes aerospace, electronics, packaging, automotive and medical devices. Track 5 : Recent developments in Polymer Science and Engineering. Materials science and engineering, involves the discovery and design of new materials, with an emphasis on solids and scientific study of the properties and applications of materials of construction or manufacture such as ceramics, metals, polymers, and composites.
Materials science is also an important part of forensic engineering and failure analysis. In a broad sense, materials science involves studying the synthesis, processing, structure, properties and performance of materials. Properties of interest can be mechanical, electrical, magnetic, optical and quantum mechanical.
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The outcome of such a study can directly impact the society in which we live and work, by benefiting the industries involved in electronics, communications, medicine, transportation, manufacturing, recreation, energy and environment. Track 6: Synthetic Polymers. Synthetic polymers are those which are human-made polymers. Synthetic polymers are those which consists of repeated structural units called as monomers.
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Track 7: Natural Polymers. Natural polymers occur in nature and can be extracted, The human body contains many natural polymers, such as proteins and nucleic acids. Cellulose , another natural polymer some of the Natural polymers includes DNA and RNA, Natural polymers are very much significant in all the life processes of all the living organisms.
get link Track 8: Recent advancements in Biopolymers. Biopolymers are the types of polymers that are produced by living organisms. In other words they are also know as polymeric biomolecules. Biopolymers are generated from renewable sources and they are easily biodegradable because of the oxygen and nitrogen atoms originate in their structural backbone. It is a biodegradable chemical compound that is observed as the most organic compound in the ecosphere.
Biopolymer are primarily divided into two types, one is produced from living organisms and another is obtained from renewable resources but require polymerization. In addition, we welcome submissions on bio-based or renewable polymers, stimuli-responsive systems and polymer bio-hybrids. European Polymer Journal also publishes research on the biomedical application of polymers, including drug delivery and regenerative medicine.
The main scope is covered but not limited to the following core research areas:. Article Types and Submission European Polymer Journal publishes the following article types: original research papers, review articles, featured articles, short communications and Research Insights.
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Please click here for more information on our author services. The new scopes can be found via the following links. These new scopes increase the differentiation between these excellent sister polymer science titles and take effect from 1 January Search in:. Home Journals European Polymer Journal. ISSN: European Polymer Journal. Editor-in-Chief: R. Hoogenboom , Julius Vancso. View Editorial Board. Submit Your Paper. Supports Open Access. View Articles. Track Your Paper Check submitted paper Due to migration of article submission systems, please check the status of your submitted manuscript in the relevant system below: Check the status of your submitted manuscript in EVISE Check the status of your submitted manuscript in EES: Username Password I forgot my password.
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