61. Index To The Notes For Chem 381 wetting agents; nonionic wetting agents. The chemistry and Engineering of Polyolefins. Monomers and polymers of Addition Polymerization. http://web.umr.edu/~wlf/CHEM381/

Thousands-of-colors monitor setting recommended if available The Polymer Building is a project to enhance polymer education using hypertext technology to link together the basics of polymer science. Now: about these notes for CHEM 381: It's taken quite a bit of time to put all this together, and so far I haven't had a chance to have someone else sit through and peer edit. John Land will be going through the notes when I finish the last few pages, and the green symbol "PEER EDITING BY JOHN TO THIS POINT" will show you how far he has gone with the peer editing. -Larry INDEX TO THE NOTES FOR CHEM 381- POLYMER AND COATINGS SCIENCE Introduction Chapter One Chapter Two Chapter Three Alphabetizing of keywords If it's in this alphabetized listing, then you can use the find function of your browser to take you to a link about the topic. Don't type in the words in parenthesis. acrylamide, synthesis of acrylic acid, synthesis of acrylic polymers acrylonitrile-butadiene-styrene terpolymers or ABS acrylonitrile, synthesis of adipic acid addition polymer alkyd resins alkyd resin classification by oil length alkyd paint, components of an

62. Polymer_Chemistry Polymer chemistry. Homopolymers and block copolymers We use anionic polymerization techniques to synthesize model polymers with predictable http://www.fz-juelich.de/iff/e_ins_synthese/

INSTITUTE OF SOLID STATE RESEARCH (IFF) NEUTRON SCATTERING IFF Home Neutron Scattering Overview Research ... Contact Polymer Chemistry Homopolymers and block copolymers We use anionic polymerization techniques to synthesize model polymers with predictable molecular weights and narrow molecular weight distribution. By the use of special monomers this technique allows to synthesize homopolymers and block copolymers of the wished property profile. New amphiphilic block copolymers which were developed in this lab are widely used to study micelles and emulsification boosters for microemulsions. For usaturated polymers a possibility to change the properties is hydrogenation. By this way 1,4-polybutadiene is transformed into polyethylene which is an ideal material to for fundamental questions but also applied research. Branched structures The combination of anionic polymerization and linking reaction with chlorosilane compounds allows us to synthesize defined branched structures. By this way it is possible to produce star polymers from 3 to many dozens of arms. If deuterated monomers are used it is possible to selectively label a part of the structure for neutron scattering experiments. With the same technique we synthesize comb polymers. These materials have interesting rheological properties. They are used as model polymers to examine the processing behavior of industrial PE and PP.

63. Chemistry: Courses Chem. U73000 Polymer chemistry. Chem. Chem. U83902 Advanced Polymer chemistry II, Characterization and Properties of polymers (Prerequisite Chem. U73000). Chem. http://web.gc.cuny.edu/Chemistry/courses/

Home Announcements Program Courses Faculty Contact Us Useful Links Students ... Student Handbook Application COURSES See: Spring 2004 Courses Unless otherwise stated, all courses are 45 hours, 3 credits. Chem. U60000 Glassblowing (90 hours laboratory, 2 credits) Chem. U60100 Project Teach (1 1/2 hours weekly during fall term, no credit) Chem. U71000 Advanced Inorganic Chemistry Chem. U73000 Polymer Chemistry Chem. U75000 Advanced Organic Chemistry I, Physical Organic Chem. U75100 Advanced Organic Chemistry II, Synthetic Organic Chem. U75200 Quantum Organic Chemistry (Prerequisite: Chem. U76000) Chem. U76000 Introductory Quantum Chemistry Chem. U76100 Spectroscopy (Prerequisite: Chem. U76000) Chem. U77000 Chemical Thermodynamics, Statistical Thermodynamics, and Chemical Kinetics (60 hours, 4 credits) Chem. U78000 Chemical Information Sources (15 hours lecture, 1 credit) Chem. U79001 Basic Laboratory Techniques for Research in Analytical, Physical, and Inorganic Chemistry (15 hours lecture, 105 hours laboratory, 4 credits) Chem. U79002 Basic Laboratory Techniques for Research in Organic Chemistry (15 hours lecture, 105 hours laboratory, 4 credits)

64. Chemistry: College Of Staten Island Course work in polymer chemistry is designed to give the student a background in the controlled synthesis of polymers, the chemical and physical http://web.gc.cuny.edu/Chemistry/staten_island.htm

Home Announcements Program Courses ... Faculty Contact Us Useful Links Students Reports Student Handbook ... Application COLLEGE OF STATEN ISLAND The College of Staten Island 2800 Victory Boulevard Staten Island, New York 10314 The College of Staten Island is located on a new 204-acre campus in a suburban borough of New York City. The College of Staten Island is accessible from other parts of the city by public transportation and from New Jersey via several bridges. Staten Island's proximity to the cultural, recreational, financial, and transportation centers of New York City as well as a certain remoteness from big city problems combine to make it an ideal setting for a growing educational institution. The College of Staten Island's main thrust within the doctoral program is polymer chemistry. The polymer chemistry doctoral specialization, developed in response to the need for scientists with graduate training in the polymer field, is interdisciplinary in nature cutting across the traditional boundaries of chemistry as well as into areas of physics, engineering, and biology. The polymer chemistry student obtains a broad background in chemistry along with a multidisciplinary approach to polymer science. Course work in polymer chemistry is designed to give the student a background in the controlled synthesis of polymers, the chemical and physical characterization of synthetic and naturally-occurring polymers and their utilization.

65. Warwick Polymer Chemistry & Technology - Dr.ir. Stefan Bon University of Warwick Polymer Group Homepage http://www.warwick.ac.uk/polymers/bon/

66. CHEM385 CHEM 385 ADVANCED MODULE IN POLYMER chemistry. CONDUCTING polymers. 2000 Nobel Prize in chemistry announcement and links to sites on conducting polymers. http://www.owlnet.rice.edu/~chem385/

CHEM 385: ADVANCED MODULE IN POLYMER CHEMISTRY CONDUCTING POLYMERS CHEM 385 ADVANCED MODULE IN POLYMER CHEMISTRY Credits 1.00 Fall 00 Students explore the synthesis and physical properties of conducting polymers. Prerequisites: CHEM 311, CHEM 351, and CHEM 352 Location: DBH Rm. 230 Times: T/Th 1:00 PM - 5:00 PM Instructor: Susan D. Wiediger Syllabus Schedule Laboratory Notebooks Useful Links ... Project 3 SYLLABUS Instructor: Susan D. Wiediger Office: Space Science 233, ext. 2357 Email Address: swiedi@rice.edu Office Hours by Appointment Teaching Assistants: Ali Al-somali, alsomali@rice.edu Feng Liang, liangf@rice.edu Yasuhiro Shirai, yasuhiroshirai@hotmail.com Grading: The course grade is based upon the performance in the laboratory. This includes attendance (10%), preparation (10%), lab notebook (20%) and three laboratory reports (3 x 20%). You will work in pairs, but you should each keep a completely independent notebook. In addition, I will rely heavily on the opinions of the teaching assistants and my own observations of your work in order to assess your progress in the course. Your lab notebooks and the final lab report will be due by 5 PM, Wednesday, December 12; late notebooks and reports will be penalized 3% per weekday late. It is recommended that you keep your lab notebook in your lab desk drawer when not using it to create reports to prevent loss. Safety: You must at all times wear safety glasses and you must follow reasonable safety precautions when working in the lab!!! Failure to abide by the safety regulations could get you kicked out of the lab. This is an extremely serious issue with dire consequences to the health and safety of yourself and your colleagues. Wearing a lab coat or apron is recommended but not required. Please wear gloves when handling the polyaniline powders. Specific safety precautions concerning the use of hazardous chemicals and operation of scientific equipment will be indicated either by myself or by one of the teaching assistants. These procedures must be followed. If you have any doubts about the safety of something you are about to do, ask first!!! We will be most happy to answer your questions. Finally, and very importantly, at least one T.A. or myself must be physically present at all times for you to work in the lab.

67. POLYMERS PEOPLE - FURTHER READING Paul J. Flory. Principles of Polymer chemistry. Polymer chemistry in Europe and AmericaHow It All Began. Journal of Chemical Education, 58 (1981), 527534. http://www.chemheritage.org/EducationalServices/Polymers People/FURTHER_READING.

68. 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.

69. Subject Category Guide See also Field 11, Materials. For inorganic polymers, See 07/06, Polymer chemistry. For organic polymers, See 07/06, Polymer chemistry. http://www.dtic.mil/dtic/subcatguide/chemistry.html

Contributors Handbook DTIC Thesaurus Registration Guide Subject Category Guide DTIC Digest Handbook for Users Report to Our Customers Subject Category Coverage Subject Category Home Order Industrial Chemistry and Chemical Processing Techniques, processes, unit operations, apparatus and plant equipment that apply to chemical manufacturing, processing, transportation and storage; Specifications and standards for shipping of chemicals; Desalination technology. For disposal of industrial wastes, See Field 24 , Environmental Pollution and Control. Inorganic Chemistry Synthesis, properties and reactions of inorganic compounds; Studies of the chemical elements; Inorganic quantitative and qualitative analysis; Complex compounds including metal carbonyls. Includes spectra studies of inorganic compounds. For fuels chemistry, See , Fuels. For the chemistry of rocket propellants, See , Rocket Propellants. See also

70. Details Of Organic And Polymer Chemistry The theme of the research group Organic and Polymeric chemistry is situated around synthesis and characterisation of functional polymers and polymer networks. http://www.luc.ac.be/english/onderzoek/groepen/teams_p_dep/abstract_groep.asp?id

71. Department Of Chemistry. Courses And Degrees the basis curricula there are 5 special groups on physical (theoretical) chemistry, radiochemistry and radioecology, chemistry of polymers, high temperature http://www.chem.msu.su/eng/courses-and-degrees.html

Department of Chemistry. Courses and Degrees General Theoretical Courses Laboratory Work Bachelor and Master degrees PhD Honours degree ... Doctor of Science Honours degree Department of Chemistry prepares SPECIALISTS in Chemistry The term of study: 5 years, full-time. Specializations: ; Analytical Chemistry; Bioorganic Chemistry; Biochemical Technology; Colloid Chemistry; Cryochemistry; Medical Chemistry; Inorganic Chemistry; Petrochemistry; Organic Chemistry; Radiochemistry; Physical Chemistry; Chemical Kinetics and Catalysis; Chemical Technology; Chemical Enzymology; Chemical Material Science; Polymer Chemistry; Chemistry of Organoelement Compounds During the 7 semesters of their study, students attend to lectures and conduct practical laboratory work on fundamental disciplines. Then they choose their specialization. After finishing  courses in inorganic chemistry, analytical chemistry, organic chemistry, and physical chemistry a term paper is prepared. Besides the basis curricula there are 5 special groups on: physical (theoretical) chemistry, radiochemistry and radioecology, chemistry of polymers, high temperature superconductors and computational methods in chemistry. In these groups students are engaged under special curricula, in which much more time is devoted to quantum chemistry, kinetics and catalysis, methods of investigation and analysis of polymers and other disciplines. General Theoretical Courses Discipline Hours Inorganic Chemistry Analytical Chemistry

72. NSF - Researchers - James V. Crivello board of the Journal of Polymer chemistry, Journal of Macromolecular Science Pure and Applied chemistry, Designed Monomers and polymers, and Chemtracts. http://www.rpi.edu/dept/nsec/researchers_crivello.html

James V. Crivello Education: Career Highlights: Crivello is the assistant editor of Chemistry of Materials and serves on the editorial board of the Journal of Polymer Chemistry, Journal of Macromolecular Science: Pure and Applied Chemistry, Designed Monomers and Polymers , and Chemtracts . He also designed and taught several professional courses for the American Chemical Society, including Designing Macromolecules for Specific Applications (1990); Radiation Curing (1980); Polymer Synthesis, Applications of Polymers in Electronics (1991); UV Curing (1995); and Fundamentals of UV and E-Beam Curing (1999). Crivello received the Inventor of the Year Award from the Eastern NY Patent Law Association in 1980, the Outstanding Technical Paper Award at the Radiation Curing Conference in 1982, the IR-100 Award in 1973, and the Best Paper Award at the RadTech 2000 Meeting. Research Areas: Crivello's work focuses on new polymer-forming reactions, initiators, block polymers, and metal-catalyzed ring-opening polymerizations. Using the hydrosilylation reaction, a number of novel interesting monomers and polymers have been prepared, which exhibit extraordinary reactivity in cationic polymerization. Crivello is seeking to explore other new areas of organic and synthetic polymer chemistry with a view towards making unusual polymeric materials of both practical and theoretical interest. Having prepared new polymers, Crivello is undertaking a detailed investigation of their structures and properties.

73. RPI Polymer Synthesis - James Crivello Crivello is seeking to explore other new areas of organic and synthetic polymer chemistry with a view towards making unusual polymeric materials of both http://www.rpi.edu/polymers/faculty_crivello.html

James V. Crivello Professor, Chemistry Education: B.S., Chemistry, Aquinas College, 1962 Ph.D., Organic Chemistry, University of Notre Dame, 1966 Career Highlights: Crivello worked for several years as a research project manager at the General Electric Corporate Research and Development Center. In 1980, he was elected a Coolidge Fellow and spent 1986-87 as visiting professor at the University of Mainz in the Federal Republic of Germany. He joined the faculty of Rensselaer in 1988. Research Areas: New Polymer Forming Reactions Initiators Block Polymers Metal-Catalyzed Ring-Opening Polymerizations New Polymer Forming Reaction Using the hydrosilylation reaction, a number of novel interesting monomers and polymers have been prepared, which exhibit extraordinary reactivity in cationic polymerization. Crivello is seeking to explore other new areas of organic and synthetic polymer chemistry with a view towards making unusual polymeric materials of both practical and of theoretical interest. Having prepared new polymers, Crivello is undertaking a detailed investigation of their structures and properties.

74. PSU Chemistry Harry R. Allcock The use of fundamental chemistry to advance the fields of polymers, materials, and biomedicine is a major emphasis in modern research. http://www.chem.psu.edu/profs/allcock02.html

75. University Of Tulsa: Chemistry Graduate Program Prerequisite consent of instructor. CHEM 7163 Advanced Polymer chemistry Advanced topics in kinetics, thermodynamics, and physical properties of polymers. http://www.chemistry.utulsa.edu/gradcourses.html

Graduate Courses CHEM 7113 Adv Organic Chemistry Emphasis on current theories of reaction mechanisms as they apply to organic reactions. Prerequisite: Chem 3021, 3023. CHEM 7123 Adv Physical Chemistry Theory of chemical bonding, statistical mechanics, and advanced topics in spectroscopy and kinetics. Prerequisite: Chem 4023 and 4021. CHEM 7133 Spectroscopic Analysis Determination of chemical structure through interpretation of UV, IR, NMR, mass spectra and the chemical literature. Prerequisite: Chem 3023 CHEM 7143 Advanced Biochemistry Enzyme structure and mechanism, protein modification and signal transduction in sensory systems, DNA and RNA biochemistry, biochemistry of disease. Prerequisites: Chem 3051 and 3053. CHEM 7153 Materials Chemistry Relationships between chemical bonding and the physicochemical properties of materials including selected high-performance metals, ceramics, and electronic materials. Prerequisite: consent of instructor. CHEM 7163 Advanced Polymer Chemistry Advanced topics in kinetics, thermodynamics, and physical properties of polymers. Prerequisites: Chem 4023 and 4093. CHEM 7863 Advanced Topics in Chemistry Advanced study of an area of research activity. Important concepts, the contribution of modern instrumentation, and relevance of the research will be emphasized. Prerequisite: consent of instructor.

76. SCAN — Chemistry And Materials 2706 polymers. Types of polymers; polymer chemistry and polymer physics; properties and uses. 28 Propellants and Fuels. 28-01 Liquid Propellants. http://www.sti.nasa.gov/scan/chem-mat.html

Pre loading of images for the side bar navaigation button mouseovers Skip to page content NTRS: NASA Technical Reports Server Search the NTRS: NASA Technical Reports Server CHEMISTRY AND MATERIALS Includes chemistry and materials (general); composite materials; inorganic and physical chemistry; metallic materials; nonmetallic materials; propellants and fuels; and materials processing. 23 Chemistry and Materials (General) 23-01 Chemical Analysis Qualitative, quantitative, and analytical chemistry; chromatography; chemical composition. 23-02 Chemical Processes and Engineering Chemical processes and specific chemical reactions such as oxidation, nitration, hydrogenation, polymerization, etc. 23-03 Luminescence Chemiluminescence; photoluminescence; bioluminescence; phosphorescence; electroluminescence; fluorescence; optical properties. 23-04 Photochemistry Photosynthesis, photolysis, photodecomposition, and photodissociation; photochemical reactions; radiation chemistry. Related Topics 51-02 Biochemistry Study of chemical substances in living organisms; physiochemistry; biological and chemical evolution; experimentation.

77. Department Of Chemistry - Faculty Research Areas - Materials & Catalysis S. ( Thai ) Thayumanavan Organic and Polymer chemistry Design and synthesis of biomimetic organic molecules and polymers. Applications http://www.chem.umass.edu/Research_areas/materials_catalysis/materials.html

SELECT A FACULTY MEMBER David Adams Scott Auerbach Michael Barnes Patricia Bianconi Beatrice Botch Louis Carpino David Curran Lila Gierasch Stephen Hixson Bret Jackson Igor Kaltashov Michael Knapp Paul Lahti Michael Maroney Craig Martin Ricardo Metz George Richason Vincent Rotello Peter Samal Gary Snyder David Sommerfeld Howard Stidham S. "Thai" Thayumanavan Lynmarie Thompson Julian Tyson Peter Uden Richard Vachet Dhandapani Venkataraman William Vining Edward Voigtman Robert Weis Thomas Whelan S. M. Auerbach Physical Chemistry Theoretical chemistry and computational materials science. M.D. Barnes Physical Chemistry Single-molecule spectroscopy, polymer-based nanoscale photonics. P. Bianconi

78. Department Of Chemistry - Faculty Research Areas - Organic Chemistry observation, and chemistry of highly reactive species computational investigation of reactive species; synthesis of highly conjugated polymers; organic http://www.chem.umass.edu/Research_areas/organic/organic.html

chemistry: faculty research areas: organic chemistry SELECT A FACULTY MEMBER David Adams Scott Auerbach Michael Barnes Patricia Bianconi Beatrice Botch Louis Carpino David Curran Lila Gierasch Stephen Hixson Bret Jackson Igor Kaltashov Michael Knapp Paul Lahti Michael Maroney Craig Martin Ricardo Metz George Richason Vincent Rotello Peter Samal Gary Snyder David Sommerfeld Howard Stidham S. "Thai" Thayumanavan Lynmarie Thompson Julian Tyson Peter Uden Richard Vachet Dhandapani Venkataraman William Vining Edward Voigtman Robert Weis Thomas Whelan P. Bianconi Inorganic Chemistry Chemistry of materials; in-situ polymerization fabrication of inorganic/organic composites; inorganic polymer chemistry; optical and conductive materials via organometallic routes. L. A. Carpino

79. Polymer Chemistry Glossary Polymer chemistry Glossary. Absorption Not to be confused with adsorption, absorption is one substance is taken up into the interior http://www.kcpc.usyd.edu.au/discovery/glossary-all.html

Polymer Chemistry Glossary Absorption Not to be confused with adsorption absorption is one substance is taken up into the interior of another - adsorption with a 'd' is entirely a surface effect. Examples are the swelling of a poly(acrylamide) polymer with aqueous solution (in a disposable nappy) or the dissolution of carbon dioxide in seawater (one of the possible antidotes to global warming that crops up in models of world climate. Entry: 155 Acetaldehyde Oops, I should have used the systematic name, ethanal ! This is a good example of a case where the IUPAC system may be logical, but can easily engender no end of confusion. Ethanol and ethanal are very differnt: Entry: 101 Acid There are three definitions - Arrhenius, Bronsted, and Lewis Acids . In the Lewis conception, which is the most general and useful, an acid is essentially any compound that needs electrons, and a base is basically any compound that wants to give them away. Entry: Acid anhydride Take two carboxylic acid molecules - for example, salicylic acid - and remove water to give a molecule containing a -(C=O)-O-(C=O)- link - this molecule will be an acid anhydride . For example: ethanoic anhydride: ethanoic anhydride (a.k.a acetic anhydride)

80. Division Of Polymer Chemistry - American Chemical Society Division of Polymer chemistry, Inc. of the American Chemical Society. One of the Division of Polymer chemistry, Inc. All rights reserved, http://www.polyacs.org/

Home Contact Us Suggestions Site Map/Search Search Your browser does not support script What's New Join POLY Workshops POLY Meetings ... Jobs Announcements Member Recognition. POLY recognizes its 30, 20 , 10, and 5 year members for 2004 Excellence in Grad. Polymer Science Symp. At the Philadelphia ACS Meeting. Opportunities for travel assistance for graduate students. Click for forms and more information.Revised deadline: April 20, 2004 The preliminary program is available. Preliminary Schedule for Anaheim National Meeting Available Useful for planning, but please check with ACS for final scheduling. Carl S. Marvel Creative Polymer Science Award Now soliciting nominations - Deadline, July 1, 2004. 2004 Industrial Polymer Scientist Awards honor Bill Culbertson and Craig Hawker. See Awards page. New York POLY Board Reports Please feel free to look at some of the efforts of our volunteer committees. 2003 Election Results Announced Havelka, Martin, Cheng, and Amis elected. see election results. In Memorial, Dr. Stanley C. Israel, 1942-2003 Information on the memorial service and Stan's contributions.

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