June 22, 1919 – December 24, 2013
In 1954 he returned to Switzerland and joined the University of Zurich, where he stayed as Professor until 1987 and since then as Emeritus Professor. Dreiding received the Werner Medal and the Rusizka Price of the Swiss Chemical Society and was awarded honorary degrees by the University of Clermont Ferrand and by the ETH, Zürich. He was elected President of the Swiss Committee of Chemistry (top organization of all Swiss chemical societies), initiated (1965) the Bürgenstock Conferences on Stereochemistry, invented (1958) the Dreiding Stereomodels, served on the editorial board of several chemical journals, including 'Helv. Chim. Acta', 'Chemie in Unserer Zeit' and 'MATCH' (Mathematical and Computer Chemistry). Dreiding lectured at numerous conferences and acted as visiting professor in several universities all over the world.
First marriage(1947) Rose (Sphinx) Rasmussen (deceased 1953). Children: Karin (1949) and Eric (1951). After returning to Switzerland, he met (1954) Norma Bettinaglio, who helped him raise his children (marriage 1971).
The major research activities of Dreiding were concerned with several fields of
A) Organic Chemistry
a. cis- and trans-ring fusions in alicyclic compounds as in steroids (Pd-isomerizations and conformational analysis),
b. systematic analysis of several types of molecular models, including Stereomodels and Inversomodels,
c. regio- and stereo-selectivities of pericyclic reactions (H-migrations, cyclizations, cycloadditions, rearrangements) including ketene additions,
d. configurational retention via lithiation,
e. N-atominversion in polyaza-compounds and 3-point configurational variation in azimines,
f. uncovering of the enantiomeric excess effect (EE-Principle),
g. fundamental concepts of chirality.
2 Stucture elucidation of natural products:
a. betacyanins and betaxanthins, the red and yellow nitrogenous pigments of certain plants (centrospermae, a.o. the red beet and cactus flowers and fruits),
b. vertinoids and their colored dimers from moulds.
3 Biosynthesic paths:
a. betalains from dopa,
b. vertinoids from ketides.
a. steroids (sexhormones),
b. 15-rings (muscone, exaltone) from 12-rings,
c. the betalain food colors (betalamic acid),
d. diterpenes (arteannuin and sativene),
e. polycyclopentanoids (modephene, clovene, capnellene, albene, ptychanolide).
5 Synthesis and study of special structures (spirotetrenes, triasteranes, homofulvenes, bishomoquinones, tropones, dehydrotropones, bullvalenes, triaziridines, diazaheptamethinium salts and tetrahydroisoquinolins).
6 Use of highly reactive intermediates such as ketenes, carbenes, nitrenes, cyclopropenones, cyclobutenones (additions to olefins and azocompounds) leading to otherwise difficultly accessible products.
7 Azachemistry: Azimines, triazenes, triaziridines, triazolidines and cyclotrisazobenzene.
8 Mechanisms of reactions:
a. beta-Reformatski reaction (leading to alpha-methylene-butanolides, such as lichesterinic acid and arteannuin),
b. desaromatization (to spiro compounds),
c. dienone-phenol and phenol-phenol rearrangements,
d. intramolecular cycloadditions,
e. thermal alpha-alkynone cyclization (to cyclopentenones) and
f. small ring SN2-reactions. Another research effort of Dreiding concerned
B) Mathematical Chemistry (originally motivated by generalizations of stereochemical principles including chirality):
1 The chiron and multiplex concept (of point sets in n-dimensional space).
2 Relational systems (matroids) as a general mathematical tool for unique naming and numbering of chemical structures, furnishing also the mobile symmetry group (Longuett-Higgins) of rigid or mobile molecules.
3 Several computer programs (e.g. ONOMA and CIPout) implemented these methods.