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1、郑 强 教 授,Dr.Prof Qiang ZHENG,2004/9,Development of Polymer Science高分子科学的形成与发展,What is polymer,其分子量(molecular weight)104107,Macromolecule,Polymer,High Polymer,高 分 子,高分子是指其分子主链上的原子都直接以价键连接,且链上的成键原子都共享成键原子的化合物,价 键 bond,Earlier,Goodyear(1839,美),天然橡胶(nature rubble),Parks(1855,美),硝化纤维素(guncotton),樟脑(campho
2、r),人造丝(rayon),de Chardonnet(1883,法),赛璐璐(celluloid),Hyatt(1870),高分子和我们的关系,Oil industry data shows that only about 9%of all crude oil is used for petrochemicals.The largest use of crude oil is in fuel for transport(about53%).Of the oil used for petrochemicals,about half goes into plastics,so that the
3、complete abolition of plastics would have a tiny effect on oil consumption.Indeed,plastics production uses oil fractions that might otherwise be flared;polymerization of ethylene,propylene,dienes and cyclo-olefins to lightweight,high-added-value engineering materials,which keep the carbon content lo
4、cked in a solid form,is a very“green”activity.,Modern,Organic Chemist and Polymer Chemist,1881.Mar.23,born in Worms 1965.Sep.8,died in Freeburg.1903,he studied at Darmstadt,Munich and Halle and obtained his doctorate.1912,he was appointed associate professor at the Polytechnic in Karlsruhe,moved to
5、Zurich and finally to the University of Freeburg in 1926.,In 1910,he recognised that the current theories for the structure of natural rubber were incorrect.The controversies surrounding naturally occurring large molecules and experimental difficulties in studying them led him to look at materials b
6、ased on simpler molecules such as styrene.,He introduced the concept of macromolecules,a term which he coined,and polymerisation in May 1922,in a report which appeared in Helvetica Chimica Acta.,He met Wallace Carothers at a conference in Cambridge in 1935,following which he included polyesters in h
7、is studies of the properties of dilute polymer solutions-from which he discovered the relationship between viscosity and molecular weight.,Towards the end of his career he turned his attention back to biological macromolecules and what is now called molecular biology.,1920 On Polymer 论聚合,首次提出聚合就是小分子
8、依靠化学键结合起来,形成大分子的过程的理论,并提出了聚苯乙烯、聚甲醛、天然橡胶的线型长链结构式,1932 The high-molecular compounds 高分子有机化合物,首次提出了合成大分子具有多分散性,且物理性质具有分子量依赖性,标志着高分子化学的诞生。,1953 Nobel Prize in Chemistry,For his discoveries in the field of macromolecular chemistry.,“链状大分子物质的发现”,K.Ziegler(German,19891973),2.,1898.Nov.26,born in Helsa in G
9、ermany.1973.Aug.12,died in otto Hahn.1920,graduated under Prof.von Auwers at the University of Marburg/Lahn.1936,he became Professor and Director of the Chemisches Institut at the University of Halle/Saale.1943-1969,he was Director of the Max-Planck-Institut fur Kohlenforschung.,Organic Chemist,His
10、earlier work involved the clarification of rubber synthesis reactions,cyclic carbon compounds used in perfumes and lithium in organic reactions.,Zieglers most important discovery was made in 1953 from his work on organo-aluminium compounds.With E.Holzkamp,a student,he found that substances made by m
11、ixing organo-metallic compounds with certain heavy metals permitted rapid polymerisation of ethylene at atmospheric pressure.This significant contribution established that very high molecular weight polyethylene could be produced with linear chain structure and give valuable production,property and
12、application potential.,The catalyst was derived from triethyl aluminium and titanium tetrachloride.Although many other catalyst systems and polymerisation methods were devised,this work formed the basis of later developments in the production of long chain polymers from olefins such as propylene and
13、 butadiene.,The modern polyethylene range of specifically structured polymers has provided products readily formed as films,fibers and mouldings applicable in many areas of modern life.Blow moulded bottles(eg for milk and household cleaners),injection moulded containers,toys and appliance components
14、 are daily reminders of Zieglers outstanding and original work.,烯烃的催化二聚作用,合成高级烯烃乙烯经烷基铝催化合成高级伯醇由烯烃合成萜醇由烷基铝经电化学或其他方法合成其他金属的烷基化合物利用氢化烷基铝和三烷基铝做有机物官能团的还原剂以三烷基铝与四氯化钛为催化剂(称为ziegler-natta催化剂)使乙烯在常温常压下聚合成线型聚乙烯,这项研究为高分子化学和配位催化作用开辟了广阔的研究领域。,G.Natta(Italian,19031979),1903.Feb.,born in Imperia,Italy.1979.May,die
15、d in Bergamo.1924,he graduated in Chemical Engineering at the Polytechnic of Milan and teach there in 1927.1936-1938,full-professor and director of the Institute of Industrial Chemistry at the Polytechnic of Turin.Since 1938,he has been full-professor and director of the Department of Industrial Che
16、mistry at the Milan Polytechnic.,Italian Chemist,He developed new uses for the commercial synthesis of methanol,formaldehyde,succinic acid and butyraldehyde.His intensive interest in and studies of polymers in conjunction with the Italian firm Montecatini led in 1953 to his use of Ziegler catalysts
17、for the polymerisation of propylene.,He also developed catalyst systems for producing syndiotactic polypropylene.he contribution of Natta to the development of high polymers of profound use in the manufacture of films,fibres,synthetic rubber,etc.,has provided a major building block towards our curre
18、nt domestic and commercial society.,以丁烯脱氢制成丁二烯,发展了合成橡胶单体 的制备方法以三氯化钛和烷基铝为催化剂,丙烯在低压下高收率地聚合,生成 分子结构高度规整的立体定向聚合物 聚丙烯进一步成功地将其催化剂分别用于丁烯和4-甲基-1-戊烯的立体定向聚合,首先制成了分子结构高度规整的聚丁烯和聚甲基戊烯以钒卤化物和烷基铝为催化剂,使乙烯和丙烯共聚合制成无规结构的乙丙橡胶,主要贡献,立体规整聚合,Plastic、Rubble、Fibre,Nobel Prize in Chemistry,聚丙烯聚合环烯烃,环烯烃聚合,非烯单体,1963,Ziegler、Natt
19、a在高分子合成化学和工艺领域中的发现,for their discoveries in the field of the chemistry and technology of high polymers,Ziegler-Natta polymerization is a method of vinyl polymerization.Its important because it allows one to make polymers of specific tactivity.It was named for Karl Ziegler and Giulio Natta,who were p
20、ioneers in this type of polymerization,though history and a federal court have decided that Robert L.Banks and J.Paul Hogan were the first to discover the process.Ziegler-Natta is especially useful,because it can make polymers that cant be made any other way,such as linear unbranched polyehtylene an
21、d isotactic polypropylene.Free radical vinyl polymerization can only give branched polyethylene,and propylene wont polymerize at all by free radical polymerization.So this is a pretty important polymerization reaction,this Zieglar-Natta stuff.,Polymer scientist,1910.Jun.19,born in Sterling,Illinois,
22、of Huguenot-German parentage.1931,graduated from the Manchester College.1934,obtained his doctorate and joined the Central Research Department of the DuPont Company.1937,joined the Basic Science Research Laboratory of the University of Cincinnati.1943-1948,at the Research Laboratory of the Goodyear
23、Tire and Rubber Company.1961,accepted a professorship in the Department of Chemistry at Stanford University,Kinetic studies of condensation polymerization enabled him to calculate the most probable distribution of molecular sizes in the polymer by assuming,contrary to conventional wisdom of the time
24、,that reactivity is largely independent of molecular chain length.,Other major contributions include the concept of chain transfer in the kinetics of vinyl polymerization,a statistical theory of gel formation from monomers with more than two functional groups,the Flory-Huggins theory of polymer solu
25、tion thermodynamics,and the excluded volume effect which causes significant expansion of polymer coils over what had been previously theorized,theories of rubber elasticity and of liquid crystals,and many more.Flory,more than any other individual,showed that the physical and chemical properties of m
26、acromolecules are as understandable as those of nonpolymers via the basic principles of kinetics,thermodynamics,and statistical mechanics.,缩聚过程的分子量分布理论 molecular weight distribution theory of polycondensation,自由基聚合的链转移理论 chain transfer theory of free radical polymerization,凝胶化理论 gelification theory,
27、主要贡献,非晶态高聚物本体构象概念 conception of bulk conformation of amorphous polymer,高分子溶液热力学理论 thermodynamic theory of polymer solution,溶液或熔体粘度与分子结构关系 the relation between molecular structure and solution or melt viscosity,液晶高分子理论 liquid crystal polymer theory,1953 Principles of Polymer Chemistry 高分子化学原理,Became
28、bibles in the field,A comprehensive guide to Polymers by the Nobel winning Flory himself!The book is an essential read for anyone interested in polymer science,and knowledge of how Flory developed and demonstrated several key ideas used in everyday polymer science.Not recommended as a textbook for b
29、eginners,but as reference book for anyone planning to delve deeper into the subject!,1969 Statistical Mechanics of Chain Molecules 链分子的统计力学,It is the recommended introduction into the subject of rotational isomeric state theory for the novice and the most important work of reference for those seekin
30、g to rationally deduce the conformational characteristics of macromolecules from a detailed knowledge of the chain structure.,1974 Nobel Prize in Chemistry,For his fundamental achievements,both theoretical and experimental,in the physical chemistry of the macromolecules,4.,P.G.de Gennes(French,1932)
31、,1932,Born in Paris.1955,majored from the Ecole Normale Suprieure 1955-1959,research engineer at the Atomic Energy Center.1961,assistant professor in Orsay and soon started the Orsay group on supraconductors.1968,switched to liquid crystals.1971,became Professor at the Collge de France,and participa
32、ted to STRASCOL on polymer physics.,Gennes investigated how extremely complex forms of matter behave during the transition from order to disorder.He showed how electrically or mechanically induced phase changes transform liquid crystals from a transparent to an opaque state,the phenomenon exploited
33、in liquid-crystal displays.His research on polymers contributed to understanding how the long molecular chains in molten polymers move,making it possible for scientists to better determine and control polymer properties.,Simple View on Condensed Matter 凝聚物质概述,The works presents a personal selection
34、of the major works of de Gennes.It comes complete with afterthoughts by the author on his main papers,explaining their successes or weaknesses,and the current views on each special problem.This collectors volume contains all the important works of de Gennes which have made a lasting impact on our un
35、derstanding of condensed matter,and serves as an essential reference book for all condensed matter physicists and physical chemists.It also bears testimony to the genius of a remarkable man,and should be a source of inspiration for aspiring scientists around the world,This volume of collected works
36、of Pierre-Gilles de Gennes will be a valuable and stimulating source for many years to come for younger readers and for beginners in the subfields of condensed matter covered in this volume,as well as a useful and compact reference book for all workers in the field.Helmut R Brand Advanced Materials,
37、1993,A few of the judges on the Nobel committee described Gennes as the Isaac Newton of our time in having successfully applied mathematics to generalized explanations of several different physical phenomena.,1991 Nobel Prize in Physics,For discovering that methods developed for studying order pheno
38、mena in simple systems can be generalized to more complex forms of matter,in particular to liquid crystals and polymers,Hideki Shirakawa(白川英树)(Japanese,1936),5.,1936.Aug.20,born in Tokyo 1961,graduated from the Tokyo Institute of Technology with a degree in chemical engineering 1966,received his doc
39、torate in engineering.1976,went to the University of Pennsylvania in the United States as a 1982,he became a professor of the faculty of the University of Tsukuba.,Organic Chemist,2000.Apr,he was appointed professor emeritus.,researcher,How can plastic become conductive?,Plastics are polymers,molecu
40、les that form long chains,repeating themselves like pearls in a necklace.In becoming electrically conductive,a polymer has to imitate a metal,that is,its electrons need to be free to move and not bound to the atoms.The first condition for this is that the polymer consists of alternating single and d
41、ouble bonds,called conjugated double bonds.However,it is not enough to have conjugated double bonds.To become electrically conductive,the plastic has to be disturbed-either by removing electrons from(oxidation),or inserting them into(reduction),the material.The process is known as doping.,What Heege
42、r,MacDiarmid and Shirakawa found was that a thin film of polyacetylene could be oxidized with iodine vapor,increasing its electrical conductivity a billion times.This sensational finding was the result of their impressive work,but also of coincidences and accidental circumstances.,白川英树教授对“发现导电聚合物”的主
43、要贡献在于他首次合成出了高性能的膜状聚乙炔。这是一种具有相当规整结构的材料,有较高的结晶度,且其表观密度仅为0.48cm2,这无疑给对其进行掺杂提供了极好的基础。,The Society of Polymer Science,Japan(1983),The Society of Polymer Science,Japan(2000),The Order of Culture from Japanese Government(2000),awards,2000 Nobel Prize in Chemistry together with Alan J.Heeger and Alan G.MacD
44、iarmid,for the discovery and development of conductive polymers,Ryoji Noyori(野依良治)(Japanese,1938),6.,Organic Chemist,1938.Sep.,born in Kobe,Japan.1961,graduated from the Kyoto University,Faculty of Engineering.1969-1970,went to Harvard University as a postdoctoral associate.1972,appointed Professor
45、at Nagoya University,and assumed his current positions in 2003.,Ryoji Noyori and his research group designed and synthesized chiral compounds such as diphosphine-binapthyl or BINAP which,when complexed with transition metals,form chiral hydrogenation catalysts.The BINAP-ruthenium(II)complex was used
46、 to produce the anti-inflammatory agent naproxen in high enantiometric purity and in very high yield.For this important work,Ryoji Noyori shared one-half of the Nobel Prize in Chemistry(2001)with William S.Knowles for their work on chirally catalysed hydrogenation reactions.The other half was awarde
47、d to K.Barry Sharpless.The Laureates have opened up a completely new field of research in which it is possible to synthesise molecules and material with new properties.Today the results of their basic research are being used in a number of industrial syntheses of pharmaceutical products such as anti
48、biotics,anti-inflammatory drugs,and heart medicines.,野依良治在威廉诺尔斯的基础上进行了深入而广泛的研究,并开发出了性能更为优异的手性催化剂。这些催化剂用于氢化反应,能使反应过程更经济,同时大大减少产生的有害废弃物,有利于环境保护。这些工作对手性氢化催化剂在工业上的应用起到极大的推动作用。目前,很多化学制品、药物和新材料的制造,都得益于野依良治的研究。,awards,The Chemical Society of Japan Award(1985),The Japan Academy Prize(1995),The Order of Cult
49、ure(2000),The Wolf Prize in Chemistry(2001),The Roger Adams Award(2001),2001 Nobel Prize in Chemistry with K.Barry Sharpless and William S.Knowles,For their work on chirally catalysed hydrogenation reactions,王葆仁院士,钱人元院士,徐 僖院士,于同隐教授,冯新德院士,沈家骢院士,潘祖仁教授,沈之荃院士,杨士林教授,浙江大学,四川 大学,北京 大学,吉林 大学,复旦 大学,中国科学院,王葆仁
50、(1906-1986)Chemist,1.,1906,born in Yangzhou,Jiangsu province.1927,graduated from the Chemistry Department of Southeastern University.1935,got doctor degree of the London University Empire College.1959,founded the Polymer Chemistry and Physics Department of Chinese Science and Technology University.,
