41. Polymer Products (from Industrial Polymers, Chemistry Of) --  Encyclopædia Bri Polymer products (from industrial polymers, chemistry of) The polymerization reactions outlined above produce raw polymer material of many types. http://www.britannica.com/eb/article?tocId=76399

42. Resources - Articles Find all about polymer additives and masterbatches on SpecialChem4Polymers.com, the best resource on plastics and rubber additives. http://www.specialchem4polymers.com/resources/articles/article.aspx?id=1636

43. Polymers This site is published on the Web by the Royal Institution of Science. polymers / chemistry; chemistry, Physical; http://bioresearch.ac.uk/browse/mesh/D011108.html

low graphics Polymers narrower: Latex Royal Institution of Great Britain : Davy Faraday Research Laboratory The Royal Institution of Great Britain was formed in 1799, and has a role in scientific research and scientific education. The current research of the Davy Faraday Laboratory (DFRL) is the science of complex materials, including catalysis, surface chemistry, and solid state synthesis. Other resources available from this site include the Atomistic Potentials Database, MARVIN'S (Minimisation and Relaxation of Vacancies and Interstitials for Neutral Surfaces) computer program, and Molecular Universe. This site is published on the Web by the Royal Institution of Science. Polymers / chemistry Chemistry, Physical Last modified: 23 Sep 2005

44. Faculty Organic and Polymer chemistry. Ronald L. Elsenbaumer. Professor. VP for Research. Electrically Conductive polymers; Mechanistic Organic and Polymer http://www.uta.edu/chemistry/html/faculty.html

The University of Texas at Arlington Analytical Chemistry Richard (Xiyun) Guan. Assistant Professor. Single Molecule Detection Biomaterial Development for Use in Sensors Direct and in-situ Environmental Monitoring and Medical Diagnosis Krishnan Rajeshwar. Distinguished Professor. Associate Dean of the College of Science. Semiconductor Electrochemistry and Photocatalysis Conducting Oxides and Polymers Environmental Electrochemistry Kevin A. Schug. Assistant Professor. Soft Ionization - Mass Spectrometry Chromatographic Separations Molecular Recognition and Biomimetics Norma Tacconi. Research Associate Professor. Electrochemistry Semiconductor Nanostructures and Nanocomposites Metal Hexacyanoferrates: Electrosynthesis and Photoelectrochromic Applications Spectroelectrochemistry of Dinuclear Ru(II) Complexes Biochemistry Sanjay Awasthi Research Professor Protein Chemistry, Enzymology, Expression, Regulation Glutathione S-transferases Chemotherapy Drug Resistance Edward Bellion.

45. Department Of Chemistry At McMaster: Organic Research Polymer chemistry at McMaster involves design, synthesis and characterization of novel monomers and polymers. Rooted in organic preparative chemistry, http://www.chemistry.mcmaster.ca/research/organic.html

Organic Research Biological Inorganic Materials Organic ... Research Active Professors Emeritus McMaster Quick Links Adronov, Alex Synthesis of novel polymer architectures; carbon nanotube functionalization; supramolecular polymer chemistry Brook, Michael A. Organosilicon chemistry; polymer chemistry Capretta, Fred Phospha-adamantanes in organopalladium cross-coupling reactions; carbenoid-based synthesis; synthesis of bioactive compounds Harrison , Paul H.M. Bioorganic chemistry; biosynthetic processes; biomimetics Leigh, William J. Photochemistry; group 14 reactive intermediates McCarry , Brian E. Environmental chemistry; trace analysis; metabolomics McNulty , James synthesis; organophosphine chemistry; anticancer drugs; chemical biology; natural product isolation , Harald D.H. Functional polymers; colloids and microspheres Valliant , John F. Medicinal inorganic and radiopharmaceutical chemistry The organic chemistry subdiscipline at McMaster covers the five major areas or organic chemistry: synthetic, physical organic, bioorganic, polymer and photochemistry. In addition, much of the research in our department involves the application of organic chemistry to problems in other areas of organic chemistry to problems in other areas of science. This is reflected in the number of interdisciplinary research programmes that are being carried out jointly with groups in biochemistry, medicine, physics, and chemical engineering.

46. Professor Stuart Rowan - Macromolecular Science Invited Lecture Dynamic chemistry? From Smart Materials to New Polymer Dec 2002 JapanUS Seminar on Advanced Polymer chemistry for the 21st Century, http://polymers.case.edu/people/faculty/rowan.htm

CASE.EDU: HOME DIRECTORIES SEARCH MACROMOLECULAR SCIENCE home about the department polymers people ... calendars PEOPLE Faculty E. Baer J. Blackwell E. Dormidontova ... C. Rogers S. Rowan D. Schiraldi R. Simha C. Weder Adjunct and Associated ... Recent Graduates SEARCH in the site: STUART J. ROWAN Associate Professor Ph.D. Chemistry University of Glasgow UK, 1995 Room 522 Phone: (216) 368-4242 Fax: (216) 368-4202 Email: stuart.rowan@case.edu full CV (pdf) Interests Overview of Research ... Awards Research Interests Overview of Research Our interests focus on the investigation and utilization of Supramolecular Chemistry (the chemistry of the non-covalent bond) in polymer chemistry. Current Activity Using the nucleobase chemistry fluorescent supramolecular liquid crystalline polymers have also been prepared. Multi-responsive metallo-supramolecular polymers have also been prepared by using mixed metal systems in conjunction with a bis-ligand monomer. These systems respond to light, temperature, chemicals and shear forces. We are also currently trying different methodologies to the preparation of poly[n]catenanes, as well as investigating the use of polyrotaxanes as molecular switches.

47. Resource Descriptions - The Chemistry Of Polymers 2nd Edition The chemistry of polymers is a concise, easyto-read, inexpensive introduction It covers the basics of polymer chemistry while emphasising the practical http://www.chemsoc.org/networks/learnnet/chem-polymer.htm

The chemistry of polymers 2nd edition The chemistry of polymers is a concise, easy-to-read, inexpensive introduction to the subject and fulfils the need for a polymer text written from an applied angle. It covers the basics of polymer chemistry while emphasising the practical applications and is essential for those who wish to acquire a rapid overview of the field. This book covers the basics of polymer synthesis, characterisation, reaction kinetics and materials science, as well as important specialised topics such as polymer degradation, polymers and pollution, and a variety of technological developments. Now in its second edition, the book has been revised and expanded to reflect recent developments in the subject. There are, for example, extensive updates to the "Special topics in polymer chemistry" section, with an additional section on optically active polymers, expanded sections on ionic and co-ordination polymerisations, and co-polymerisation, and additional examples of new environmental legislation are outlined wherever appropriate. Mini Guide Education Levels Click here to buy online Contact RSC Sales and Customer Care Department Royal Society of Chemistry Thomas Graham House Science Park Milton Road Cambridge CB4 0WF tel +44 (0) 1223 432360 fax +44 (0) 1223 426017 Email sales@rsc.org

48. Chemistry Of Polymers. Books On Science. On-line Bookstore. Editorial URSS Publi chemistry of polymers. chemistry of polymers. BOOKS IN RUSSIAN LANGUAGE Information / Order Physical chemistry of polymers. Tacer A. (English). http://urss.ru/cgi-bin/db.pl?cp=&page=Catalog&id=&lang=en&blang=en&list=115

49. Polymer Chemistry Research Polymer chemistry Research. Polymer Synthesis and Experimentation. The goal of this project is to synthesize various polymers with known procedures and http://muweb.millersville.edu/~chem/polymerresearch.html

Polymer Chemistry Research Polymer Synthesis and Experimentation The goal of this project is to synthesize various polymers with known procedures and adjust those procedures to accommodate undergraduate laboratory experiments. Particular attention will be given to implementation of microscale techniques and safety.

50. RPI Polymer Synthesis - Chemistry Courses: chemistry Courses CHEM4620 Introduction to Polymer chemistry Measurement of molecular weight CHEM Physical chemistry of Bulk polymers (Faculty Ryu) http://www.rpi.edu/polymers/more_inf_courses.html

Courses and Coursework Chemistry Courses: CHEM-4620 Introduction to Polymer Chemistry Measurement of molecular weight and distribution, other characterization methods, organic and kinetic aspects of polymerization, chemical properties and uses of polymers, solution properties. Prerequisite: CHEM-4460. Spring term annually. 4 credit hours CHEM-4640/CHEM-6640 Polymer Science Laboratory (Faculty: Krause/Akpalu) Laboratory techniques and experiments in synthesis, characterization, and physical properties of high polymers. Some commercial polymers as well as those synthesized in the laboratory are investigated. Both courses CHEM-4640 and CHEM-6640 cannot be taken for credit. Corequisite: CHEM-4620 or equivalent. Spring term annually. 3 credit hours, 9 contact hours CHEM-4961/CHEM-6961 Polymer Structure and Interfaces (Faculty: Akpalu) CHEM-6620 Physical Chemistry of Macromolecular Solutions (Faculty: Krause) Thermodynamic properties of solutions of synthetic and natural macromolecules. Properties of solutions of nonelectrolyte coiling polymers and of solutions of rigid and cooling polyelectrolytes with applications to the study of phase equilibrium, osmotic pressure, light scattering, equilibrium and velocity ultracentrifugation, translational diffusion, and intrinsic viscosity. Prerequisite: CHEM-4620 or permission of instructor. Fall term, even-numbered years. 3 credit hours

51. Conferences And Events Frontiers of Research at the Polymer chemistry Organic chemistry Interface Organic chemistry Interface. Subject Category, Plastics and polymers http://www.rsc.org/ConferencesAndEvents/cfconf/alldetails.cfm?ID=15514

52. RSC - Chemistry Of Polymers The The chemistry of polymers is a concise, easyto-read, inexpensive introduction It covers the basics of polymer chemistry while emphasising the practical http://www.rsc.org/publishing/books/0854045589.asp

Contact us Other RSC site areas... About Us RSC Publishing Members Education Library Chemsoc Conferences News Chemistry World RSC Publishing Books Chemistry of Polymers The The Chemistry of Polymers Second Edition Source By J W Nicholson; Kings College School of Medicine and Dentistry, London, UK ISBN Published Format Softcover Extent xii + 190 Price Synopsis The Chemistry of Polymers is a concise, easy-to-read, inexpensive introduction to the subject and fulfils the need for a polymer text written from an applied angle. It covers the basics of polymer chemistry while emphasising the practical applications and is essential for those who wish to acquire a rapid overview of the field. This book covers the basics of polymer synthesis, characterisation, reaction kinetics and materials science, as well as important specialised topics such as polymer degradation, polymers and pollution, and a variety of technological developments. Now in its second edition the book has been revised and expanded to reflect recent developments in the subject. There are, for example, extensive updates to the "Special topics in polymer chemistry" section, with an additional section on optically active polymers, expanded sections on ionic and co-ordination polymerisations, and copolymerisation, and additional examples of new environmental legislation are outlined wherever appropriate. Brief Contents Polymer Chemistry; Polymerisation Reactions; Polymer Structure; Crosslinking; Polymer Solutions; Methods of Determining Relative Molar Mass; Mechanical Properties of Polymers; Polymer Degradation; Special Topics in Polymer Chemistry; Polymers and the Environment; Bibliography; Subject Index.

53. Polymer Chemistry Lab Polymer chemistry Lab 2318A Wean Hall (500 sq. ft. facility) Map to this lab. Polymer Microsphere Preparation. Drugs and other growth factors have been http://www.btec.cmu.edu/facilities/polymers/polymers_lab.htm

Home About People Research Facilities Education Tutorial BTEC Facilities Polymer Chemistry Lab 2318A Wean Hall (500 sq. ft. facility) Map to this lab Polymer Microsphere Preparation. Drugs and other growth factors have been incorporated into biodegradable polymeric microspheres for many years. In the Polymer Laboratory, we are using a single oil/water emulsion technique to encapsulate vascular reagents,a double water/oil/water emulsion technique to encapsulate growth factors, and a coacervation technique to encapsulate anti-tumor drugs into microspheres. Polymer Scaffold Fabrication. There are numerous protocols used to prepare porous polymer scaffolds for tissue engineering applications. In the Polymer Laboratory, two techniques that are routinely used are solvent-casting/ particulate-leaching and temperature-induced-phase-separation/freeze-drying. Polymer scaffolds with varying porosities, pore sizes and degradation rates are obtained. Both synthetic and native polymeric scaffolds are fabricated. We are also implementing novel "block-building" techniques to incorporate the multi drug-containing microspheres into tissue-engineered scaffolds.

54. Polymers Polymer chemistry concerns the preparation, characterization, The polymer chemistry group interacts extensively with other researchers within the http://www.ch.man.ac.uk/research/polymers.html

POLYMER CHEMISTRY Micelles formed by block copolymers Polymers are essential to many aspects of modern life and represent both an intellectually stimulating and an industrially important topic for study. Polymer chemistry concerns the preparation, characterization, properties and applications of macromolecules. Organic, physical and theoretical chemists all contribute to polymer research, which ranges from the synthesis of novel polymer structures for specialised applications, through detailed investigations of the physicochemical properties of macromolecular and colloidal systems, to theoretical modelling of polymer behaviour Manchester has an international reputation for polymer research and has one of the highest concentrations of polymer scientists in the UK. The polymer chemistry group interacts extensively with other researchers within the University and UMIST, including those in Materials Science, Pharmacy, Dentistry, Biological Sciences and Physics. There is access to a very wide range of skills and equipment to pursue polymer research. Support for the research comes both from research councils and industry. Industrial contributors include Avecia, Unilever, Ciba and Xennia. Structures formed by block copolymers Current research interests include: developments in entropically-driven ring opening polymerisation and cyclo-depolymerization ( Hodge living radical polymerization (

55. KJM3550 - General Polymer Chemistry The basic concepts in polymer chemistry. Polymerization reactionsmechanisms and kinetics. Methods for molecular characterization of polymers. http://www.uio.no/studier/emner/matnat/kjemi/KJM3550/index-eng.html

UiO - web pages UiO - persons WWW - Google About The University Student Life Research University Library ... Norsk versjon You are here: UiO Academics Courses KJM3550 - General Polymer Chemistry Facts about this course: ECTS credits: Teaching semester: Every autumn semester Examination semester: Every autumn semester Language of instruction: English if requested by exchange students, otherwise Norwegian Administrative unit: Department of Chemistry Detailed course information - Current and previous semesters: Autumn 2005 Content The basic concepts in polymer chemistry. Polymerization reactions-mechanisms and kinetics. Methods for molecular characterization of polymers. Statistical treatment of flexible chain molecules thermodynamics. Polymers rheological and physical properties. Objective The student should obtain a broad theoretical knowledge about polymers production, structure and properties, and about the methods and techniques that are used in polymer chemistry. Form of teaching Lectures (34 hours), Seminars (20 hours), and a compulsory laboratory course of 40 hours (5 exercises). Pass in the laboratory course is a prerequisite for taking part in the final examination. Form of exam Written examination (3 hours).

56. PIONEERING POLYMER INSTITUTE HONORED Much of today s widespread acceptance of polymers and polymer chemistry is the result of work by the Polymer Research Institute (PRI), part of Brooklyn http://www.poly.edu/polypress/pioneering_polymer.cfm

PIONEERING POLYMER INSTITUTE HONORED Chemical Engineering News by Aalok Mehta In the early part of the 20th century, many prominent chemists dismissed the idea that molecules with molecular weights in the thousands or millions could exist. Today, we know better: Polymers are everywhere, in everyday materials such as plastics, nylon, and rubber. Much of today's widespread acceptance of polymers and polymer chemistry is the result of work by the Polymer Research Institute (PRI), part of Brooklyn POlytechnic University. On Sept. 3, the American Chemical Society recognized the institute's pioneering efforts by designating it a National Historic Chemical Landmark. ACS Immediate Past-President Eli M. Pearce presented the landmark plaque to POlytechnic's president, David C. Chang. PRI holds a special place in Pearce's heart: From 1982 to 1996, he served as its director. Pearce started at Polytechnic in 1973 and is currently a 0university research professor. "For years, traditional chemistry didn't think much of polymer chemistry, and some chemistry departments seemed to have the attitude, 'If we ignore it, it might go away,'" Pearce said. "Fortunately, that has changed. POlymer chemistry is most definitely not on the outside looking in anymore." About 100 people attended the ceremony, which also featured Gerard Parkin, a chemistry professor at Columbia University and chair of the ACS New York Section; Kalle Levon, current PRI director; Hans Mark, son of PRI founder Herman F. Mark and a professor of aerospace engineering and engineering mechanics at the University of Texas, Austin; Murray Goodman, a professor of chemistry and biochemistry at the University of California, San Diego; and National Science Foundation scientist Andrew J. Lovinger.

57. Fraunhofer IFAM - Bonding Technology And Surfaces - Bonding Technologies - Adhes FraunhoferIFAM, Fraunhofer-IFAM. Adhesives and chemistry of polymers basic polymers. nano composites. characterisation of adhesives http://www.ifam.fraunhofer.de/index.php?seite=/2804/polymerchemie/&lang=en

58. Introduction To Polymer Chemistry The chemistry of polymers (Chem. 490/590). This document is to welcome you to the course in the chemistry of polymers. I think that you will find this http://web.utk.edu/~dad/intro490.html

The Chemistry of Polymers (Chem. 490/590) This document is to welcome you to the course in the Chemistry of Polymers. I think that you will find this course interesting as it will introduce you to many important concepts of polymers and will provide you with much of the information that you will need when you encounter polymers in the course of your career. I have also explicitly defined your responsibilities and my expectations. For specific syllabus information, please follow this link, syllabus Return to the Chemistry 490/590 Homepage. Role of the Student You are in school to attain skills which you will use in your career as a chemist. This course is one step in that venture. I will endeavor to introduce you to aspects of polymer chemistry which will be important for you as you continue your career. Your responsibilities in this course are not difficult. I expect that you are attending this class because you want to learn the material. As such, I will treat you like professionals. You should attend every lecture and work out all the homework problems. The exams and final paper will provide an opportunity to evaluate how well you have learned the material. If you put in an effort, you should leave this course with a 'feel' for the differences between small molecule chemistry and polymer chemistry. In addition, you should be familiar with the molecular level reasons why polymers, as a whole, are a unique type of material/chemical. The information that you will gain should serve as a foundation to further your understanding of polymers.

59. Tokyo Tech, Dept.Org.&Polym.Mater. | Labs Assoc.Prof. Mitsuru SATOH Satoh Lab, Physical chemistry of polymers, Dept.chemistry and Materials Scienece +Polymer chemistry http://www.op.titech.ac.jp/labs_e.html

Japanese Inquiry Transportation Admissions Insite Search Faculty Members of the Department and Laboratories Section Name Top Page Research Fields Undergraduate @š Division-A@Polymer Science š [A-1] Polymer Synthesis, [A-2] Polymer Design [A-3] Polymer Structures, [A-4] Polymer Properties Professor [A-1] Mitsuru UEDA Ueda Lab Polymer Synthesis icondensationj, Organic Synthesis Polymer Chemistry Assoc.Prof. [A-1] Takashi ISHIZONE Ishizone Lab Synthesis of well-defined polymers and functional polymers Polymer Chemistry Professor [A-2] Toshikazu TAKATA Takata Lab Polymer Chemistry, Supramolecular Chemistry Polymer Chemistry Assoc.Prof. [A-2] Reiko SAITO Saito Lab Polymer Design and Development Polymer Chemistry Professor [A-3] Junji WATANABE Watanabe Lab Polymer liquid crystals, Properties and structures of biopolymers Polymer Chemistry Assoc.Prof. [A-3] Hidemine FURUYA Furuya Lab Properties and structures of polymers, Polymer simulation Polymer Chemistry Professor [A-4] Toshio NISHI Nishi Lab Physical properties of soft matters and polymers, Polymer nanotechnology

60. POLYMER CHEMISTRY HYPERTEXT An educational resource compiled by students at the University of MissouriRolla. http://web.umr.edu/~wlf/

WELCOME 484 STUDENTS! POLYMER CHEMISTRY HYPERTEXT We want Polymer Chemistry Hypertext to be one of your favorite polymer educational resources. adhesion coatings mechanical properties molecular weight polymer solutions time-temperature superposition viscosity An educational resource compiled by students of Professor Stoffer at the Chemistry Department of the University of Missouri- Rolla . This is not an official document of either the chemistry department or the University. UMR chemistry students have been encouraged to "play around with it, try new ideas, and in the end, make something useful." Comments may be sent to: jstoffer@umr.edu Please include your email at the end of your messagethank you! Alphabetical Listing of the concepts All the Equations Together The Polymer Building Topics: ADHESION Buche-Cashin-Debye Equation Chain Expansion Chain Transfer COATINGS Coefficient of Curvilinear Diffusion Cohesive Energy Density Cold Flow Colorants CONDUCTIVITY Copolymerization Critical Surface Tension Crystallization Crystalline Melt Temperature (Tm) Dashpot Dihedral Energy Elongation Enthalpy Change of Mixing Entropy Change of Mixing Extension Ratio Flory-Huggins Parameter Flory-Rehner Equation Gel Permeation Chromatography Gel Point Gibbs Free Energy Change of Mixing Glass Transition Temperature (Tg) Good Solvent Hagen-Poiseuille Equation Head-Tail Placement Huggins Parameter Intrinsic Viscosity Light Scattering Mark-Houwink Equation Matrix Algebra MECHANICAL PROPERTIES Molecular Diffusion Constant MOLECULAR WEIGHT

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