Alexandru Balaban

Alexandru T. Balaban (born April 2, 1931, in Timișoara)[1] is a Romanian chemist who significantly contributed to the fields of organic chemistry, theoretical chemistry, mathematical chemistry, and chemical graph theory.

Alexandru T. Balaban

Early life and education

Balaban was born in Timișoara, in the western part of Romania. His parents (Teodor and Florica Balaban) paid a lot of attention to Balaban's education, strongly encouraging his fascination with chemistry. In 1935 his family moved to Bucharest, where Balaban attended elementary school. After World War II, in 1945 they moved to Petroșani, where he finished high school. Alexandru Balaban enrolled the Politehnica University of Bucharest in 1949, where he was awarded a Ph.D. in chemistry on April 2, 1959. The topic of his Ph.D. thesis dealt with the restrictions catalyzed by anhydrous aluminium chloride.[2]

Career

For more than forty years, professor Balaban held positions at the Chair of Organic Chemistry of the Politehnica University of Bucharest (assistant professor (1956-1960), associate professor (1961-1966) and full professor (1970-1999)). In addition, he was the head of the Laboratory of Isotopically Labelled Compounds of the Bucharest Institute of Atomic Physics from 1967 to 1974.

In 1963, he was elected as Corresponding Member of the Romanian Academy, and in 1990 as Titular Member.

From 1967 to 1970, he was appointed as a Senior Research Officer at the Chemistry Division, International Atomic Energy Agency, Vienna, Austria, in charge with radiopharmaceuticals. From 1995 to 1998, he was acting as Vicepresident of the Romanian Academy. From 1991 to 2012, he was a tenured professor of chemistry at Texas A&M University at Galveston. Since 2013, after his retirement, he has continued as Professor Emeritus at this university.

Research

[3]

Experimental organic chemistry

Professor Balaban has been investigating the synthesis and properties of pyrylium salts. He discovered with co-workers a new way of synthesis of pyrylium salts by diacylation of alkenes. This reaction is known as Balaban-Nenitzescu-Praill reaction. Nowadays, Balaban is recognized as a world authority in this field. He wrote the only existing book in this area.

Balaban also developed new synthesis of oxazoles by AlCl3 catalyzed substitution of aromatic compounds with azlactones, followed by dehydration. In addition, he had been exploring new syntheses of indolizines and of naphthalene derivatives.

In order to explain the extraordinary stability of hydrazyls such as 2,2-diphenyl-1-picryl-hydrazyl, Professor Balaban and his co-workers prepared related hydrazyls with lower steric shielding and accordingly lower stability. Then the first push-pull diarylaminyls were synthesized and shown to have stabilities depending both on electronic and steric effects.

Another experimental research direction involves the synthesis of chelate compounds having boron as the central atom.

Theoretical chemistry

Professor Balaban had a permanent interest in theoretical chemistry. He is considered as one of pioneers of the Chemical Graph Theory.

The first book about this interdisciplinary field was edited by Dr. Balaban and appeared in 1976: Chemical Applications of Graph Theory (Academic Press, London) and its Chinese translation in 1983.

One area in which cubic (or trivalent) graphs play a dominant role is the enumeration of [n]annulene valence isomers (CH)n where n is an even number. With two coauthors, Dr. Balaban published in 1986 on this topic a 3-volume monograph (Annulenes, Benzo-, Hetero-, Homo-Derivatives and Their Valence Isomers, CRC Press). Some of these valence isomers undergo thermal or pohotochemical automerizations. More recently, Dr. Balaban edited in 1997 a book titled From Chemical Topology to Three-Dimensional Geometry, Plenum Publishing Corporation, in which various two- and three-dimensional nets were discussed.

On using an approach similar to that imagined by Randić for his connectivity index χ, but replacing the adjacency matrix by the distance matrix, and compensating graph-size-increase, a new topological index (TI) J was proposed under the name "average distance-based connectivity index"; it is now known as the "Balaban index". Not only is it much less degenerate than all previous TIs, but it allows a simple encoding for the presence of multiple bonds or heteroatoms. Other new TIs were studied: several TIs based on informational descriptors, and triplet-based indices that result from converting matrices into systems of linear equations.

The Lewis acid-catalyzed syntheses of diamondoid hydrocarbons discovered by Schleyer proceed via multiple 1,2-rearrangements. The graph-theoretical analysis of the simplest such reaction involves an ethyl cation with five substituents which undergoes an automerization. This process is characterized by a 20-vertex or a 10-vertex graph depending whether one carbon atom of ethane is or is not labeled. These graphs constitute the first reaction graphs, in which vertices symbolize reaction intermediates and edges symbolize elementary reaction steeps.

Graph theory

Starting from the 10-vertex graph known as the 5-cage or the Petersen graph, Dr. Balaban observed relations among the known cages. Having discovered how a cage with smaller girth g was hidden in a cage with girth g + 1, Dr. Balaban published a paper on what was later proved to be the first 10-cage, known as the Balaban 10-cage. In 1973, he found the unique 11-cage, known as the Balaban 11-cage, as was proved by mathematicians using a lengthy computer search.

Proposals made by Balaban about new possibilities for evaluating the performance of researchers, improving the way citations are used for this purpose (e. g., via the Hirsch index) included the use of author indexes of widely circulated treatises, or modifying the way one considers the impact factors of journals.

Honoring invitations to contribute to special issues of journals dedicated to the philosophy of chemistry, Dr. Balaban published in Hyle an essay on how the "Sherlock Holmes principle" (if one eliminates the impossible, then whatever remains, no matter how improbable, must contain the truth) can be implemented by chemical graph theory which allows for instance to find all chemical isomers for a given formula.

Scientific publications

Books (17): author or co-author for 9 books including: Pyrylium Salts. Syntheses, Reactions and Physical Properties, Academic Press, 1982; Annulenes, Benzo-, Hetero-, Homo-Derivatives and Their Valence Isomers, three volumes, CRC Press, 1986; Modeling of Cancer Genesis and Prevention, CRC Press, 1990; editor or co-editor of 8 books including: Chemical Applications of Graph Theory, Academic Press, 1974 translated into Chinese in 1983; From Chemical Topology to Three-Dimensional Geometry, Plenum Press, 1997; Science and Technology Management, NATO Science Series, 1987; Topological Indices and Related Descriptors in QSAR and QSPR, Gordon and Breach, 1999.

Chapters in books edited by other authors (80).

Articles published in peer-reviewed scientific periodicals (800).

Patents (25); three of these are U. S. Patents.

Hirsch index: 62

Memberships

1963, elected as corresponding member of the Romanian Academy, Chemistry Section (youngest member among the other 12-14 corresponding members). In 2013 a special issue of International Journal of Chemical Modeling was dedicated to the half-century anniversary for this election. Due to political circumstances, the promotion to titular member occurred only after the fall of the communist regime, in 1990

1983, elected as member of the World Academy of Theoretical Organic Chemists, Paris.

1993, elected as titular member of the Romanian Academy of Technical Sciences, Bucharest.

1995, elected as titular member of the American-Romanian Academy of Sciences, Arts and Letters.

2001, elected as honorary member of the Hungarian Academy of Sciences, Budapest.

2005, elected as titular member of the International Academy of Mathematical Chemistry, Dubrovnik, Croatia.

Membership in Editorial Boards: over 15.

Honors and awards

1962, Romanian Academy’s Chemistry Prize

1963, Romanian Order of Labor

1966, Romanian Order of Scientific Merit

1994, Herman Skolnik Award of the Division of Chemical Information of the American Chemical Society

1997, Doctor Honoris Causa, University of Timişoara, Romania

2000, National Order for Faithful Service of the President of Romania

2007, Romanian Academy’s Medal “Costin D. Nenitzescu” for distinguished chemical research results

2007, Distinguished Achievement Award for Research of the Association of Former Students, Texas A&M University

References

  1. "Professor Alexandru T. Balaban – A Tribute". Arkivoc. 2005. pp. 1–8. Retrieved January 11, 2019.
  2. Balaban, Alexandru (March 24, 2016). "Autobiographical notes - 80 years of age, 68 years of chemistry" (PDF). MATCH Commun. Math. Comput. Chem.
  3. "Alexandru T. Balaban - TAMUG". Texas A&M University at Galveston. Archived from the original on October 12, 2015. Retrieved August 4, 2016.
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