Karl Ziegler – Other resources
Links to other sites
On Karl Ziegler and Giulio Natta from Chemical Heritage Foundation
Karl Ziegler – Nobel Lecture
Nobel Lecture, December 12, 1963
Consequences and Development of an Invention
Read the Nobel Lecture
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Karl Ziegler – Banquet speech
Karl Ziegler’s speech at the Nobel Banquet in Stockholm, December 10, 1963 (in German)
Majestäten, Königliche Hoheiten, Hochansehnliche Versammlung,
Das Testament Alfred Nobels bestimmt mit Bezug auf den Preis, der Herrn Natta und mir zuerkannt worden ist, daß er für diejenige Erfindung oder Verbesserung auf chemischem Gebiet vergeben werden solle, die im verflossenen Jahre der Menschheit zum größten Nutzen gereicht hat. Herr Natta und ich sind glücklich darüber, daß unsere gemeinsam ausgezeichneten Arbeiten dieser ursprünglichen Definition des Stifters mit einem besonders hohen Grade von Annäherung entsprechen, gibt es doch heute kaum eine Stelle auf dem zivilisierten Teil der Erde, auf der nicht in der einen oder anderen Form Produkte aus den neuen Kunststoffen in Gebrauch wären und dazu dienten, den Menschen das Leben zu erleichtern.
Herr Natta und ich danken den Mitgliedern des Nobel-Komitees für Chemie sehr herzlich dafür, daß sie unsere Arbeiten der höchsten Anerkennung für würdig befunden haben, die es für eine wissenschaftliche Leistung in der Welt gibt, und wir danken weiter der schwedischen Akademie der Wissenschaften und deren chemischen Klasse für die Zuerkennung des Preises.
Ich darf in einem persönlichen Wort meiner Freude darüber Ausdruck geben, daß die Akademie Herrn Natta zusammen mit mir ausgezeichnet hat. Denn Herr Natta war einer der ersten außerhalb meines Instituts, die vor etwas mehr als 10 Jahren erkannten, welche Möglichkeiten in meinen zunächst rein akademischen Arbeiten über metallorganische Verbindungen verborgen lagen, und diese Erkenntnis hat uns damals in Freundschaft zusammengeführt.
Wir haben beide schon viel darüber gehört, wie Schweden seine Nobelpreisträger empfängt. Aber die Wirklichkeit hat alle unsere Erwartungen übertroffen.
Ich danke zugleich im Namen meines Kollegen Natta nochmals Seiner Majestät dem König, der Schwedischen Akademie der Wissenschaften, der Nobel-Stiftung und allen schwedischen Freunden für das wundervolle Fest, das hier in Stockholm für uns bereitet worden ist.
Ringrazio anche a nome del mio collega Natta Sua Maestà il Re, l’Academia delle Scienze Svedese, la fondazione Nobel e tutti gli amici svedesi per la meravigliosa festa ehe ci hanno preparato a Stoccolma.
Jag ber ännu en gång att å egna och min kollega Nattas vägnar få tacka Hans Majestät Konungen, Svenska Vetenskapsakademien, Nobelstiftelsen och alla svenska vänner för den underbara fest, som anordnats för oss här i Stockholm.
Giulio Natta – Other resources
Links to other sites
On Karl Ziegler and Giulio Natta from Chemical Heritage Foundation
Giulio Natta – Nobel Lecture
Nobel Lecture, December 12, 1963
From the Stereospecific Polymerization to the Asymmetric Autocatalytic Synthesis of Macromolecules
Read the Nobel Lecture
Pdf 458 kB
Giulio Natta – Nominations
Karl Ziegler – Nominations
Karl Ziegler – Facts
Giulio Natta – Facts
Award ceremony speech
Presentation Speech by Professor A. Fredga, member of the Nobel Committee for Chemistry of the Royal Academy of Sciences
Your Majesties, Royal Highnesses, Ladies and Gentlemen.
Our epoch has witnessed the gradual replacement of traditional materials by synthetic ones. We have all seen that plastics can often substitute glass, porcelain, wood, metals, bones, and horn, the substitutes being frequently lighter, less fragile, and easier to shape and work. It has in fact been said that we live in the Age of Plastics.
Plastics consist of very large molecules or macromolecules often forming long chains of thousands of atoms. They are made by joining together normal size molecules constituting the basic units. These molecules must be reactive, but some outside help is also necessary to make them combine. This outside assistance often used to be supplied by free radicals, added to trigger off the reaction of polymerization. The term “free radical” may conjure up political connotations, and indeed free radicals have much in common with revolutionaries: they are full of energy, difficult to control, and have an unpredictable outcome. Thus, free-radical reactions give polymer chains with branches and other anomalies.
However, Professor Ziegler has found entirely new methods of polymerization. Studying organometallic compounds, he discovered that organoaluminium compounds, which are easy to prepare, are particularly suitable for work on the industrial scale. Peculiar electrical forces operate around an aluminium-carbon bond in a hydrocarbon chain: reactive molecules are drawn in and sandwiched between the carbon atom and the aluminium atom, thus increasing the length of the chain. All this happens much more quietly than in free-radical reactions. When the chain is long enough, we detach the aluminium and thus stop the further growth of the molecule. The combination of aluminium compounds with other metallic compounds gives Ziegler catalysts. These can be used to control polymerizations and to obtain molecular chains of the required length. However, many systematic experiments – and indeed some accidental findings – were necessary to reach this stage. Ziegler catalysts, now widely used, have simplified and rationalized polymerization processes, and have given us new and better synthetic materials.
The individual molecules strung together to form polymers are often so built that the resulting chain exhibits small side groups or side-chains at certain points, generally one at every other carbon atom. But the picture is more complicated, since these side groups can be oriented either to the left or to the right. When their orientations are randomly distributed, the chain has a spatially irregular configuration. However, Professor Natta has found that certain types of Ziegler catalysts lead to stereoregular macromolecules, i.e. macromolecules with a spatially uniform structure. In such chains, all the side groups point to the right or to the left, these chains being called isotactic. How is this achieved when the microstructure of the catalyst is probably highly irregular? The secret is that the molecular environment of the metal atom, at which new units are stuck on to the chain as mentioned before, is so shaped that it permits only a definite orientation of the side groups.
Isotactic polymers show very interesting characteristics. Thus, while ordinary hydrocarbon chains are zigzag – shaped, isotactic chains form helices with the side groups pointing outwards. Such polymers give rise to novel synthetic products such as fabrics which are light and strong at the same time, and ropes which float on the water, to mention only two examples.
Nature synthesizes many stereoregular polymers, for example cellulose and rubber. This ability has so far been thought to be a monopoly of Nature operating with biocatalysts known as enzymes. But now Professor Natta has broken this monopoly.
Towards the end of his life, Alfred Nobel was thinking of the manufacture of artificial rubber. Since then, many rubber-like materials have been produced, but only the use of Ziegler catalysts enables us to synthesize a substance that is identical with natural rubber.
Professor Ziegler. Your excellent work on organometallic compounds has unexpectedly led to new polymerization reactions and thus paved the way for new and highly useful industrial processes. In recognition of your services to Science and Technology, the Royal Academy of Sciences has decided to award you the Nobel Prize. It is my pleasant duty to convey to you the best wishes of the Academy.
Professor Natta. You have succeeded in preparing by a new method macro molecules having a spatially regular structure. The scientific and technical consequences of your discovery are immense and cannot even now be fully estimated. The Swedish Royal Academy of Sciences wishes to express its appreciation by awarding you the Nobel Prize. Please accept the best wishes of the Academy. I would also like to express the admiration of the academy for the intensity with which you are continuing your work in the face of difficulties.
Professor Ziegler. In the name of the Academy, I now ask you to accept the Nobel Prize from His Majesty the King.
Professor Natta. In the name of the Academy, I now ask you to accept the Nobel Prize from His Majesty the King.