Helmut Ringsdorf Explained

Helmut Ringsdorf
Birth Date:1929 7, df=yes
Birth Place:Gießen, Hesse, Germany
Fields:Polymer chemistry
Alma Mater:Technical University of Darmstadt (BSc)
University of Freiburg (MSc, PhD)
Doctoral Advisors:Hermann Staudinger,

Helmut Ringsdorf (30 July 1929 – 20 March 2023) was a German polymer chemist. His work promoted cross-disciplinary discussions and collaborations in the field of polymer chemistry, biology, physics and medicine.

Ringsdorf's major research works deal with the self-assembly of polymers into functional aggregates, where 'the whole is more than the sum of its parts'. He is known for being the first to propose covalently bonding drugs to water-soluble polymers.[1]

Personal life

Ringsdorf was born in Gießen, People's State of Hesse in 1929.[2] [3]

Ringsdorf died on 20 March 2023, at the age of 93.[4]

Education

Ringsdorf took undergraduate studies in Chemistry, Politics and Geology at the universities at Frankfurt, Darmstadt and Freiburg.[2] [3]

In 1956, Ringsdorf wrote his master's thesis under Hermann Staudinger and, in 1958, wrote his doctoral dissertation under Staudinger and . He was Staudinger's last student.[5]

Postgraduate work

Appointments/Affiliations

Honors and awards

Memberships

Research interests

Field of Expertise & Research Interests:Polymer Science as a Bridge between Material Science and Life Science.

Molecular Architecture and Functionalization of Polymeric Liquid Crystals:Synthesis, structure and property of liquid crystalline side group and main chain polymers; variation of the type of mesogens (rods, discs, boards) and variation of phases. Dye containing and photoreactive liquid crystalline polymers for reversible information storage and non linear optic materials. Phase induction and phase variation of liquid crystalline systems via Charge-Transfer-interaction and metal complexation. Photoconductive discotic systems.

Synthesis, Structure and Properties of Functional Supramolecular Systems:Polymerizable and functional amphiphiles (detergents, lipids), polymeric monolayers and multilayers via the Langmuir-Blodgett technique and via self-assembly on various surfaces. Liposomes, Black Lipid Membranes, mobile supported bilayers, H-bond induced band structures in water, organization and recognition induced functionality. Multicompartment polymer micelles.

Attempts to Mimic Biomembrane Processes:Synthetic and natural receptors in molecular assemblies; molecular recognition, 2D-crystallization and function of proteins on monolayers and liposomes, e.g. lectins, streptavidin, monoclonal antibodies, phospholipase A2 and acetylcholinesterase, tailoring of bioreactive surfaces; mixed protein multilayers. ProteinDNA-interaction at ligand lipid monolayers.

Polymers as Active Agents in the Medical Field:Polymer Therapeutics, Polymer radiation prophylactics, polymeric antitumour agents on a molecular and a cellular level.

Notes and References

  1. Ringsdorf. Helmut. Structure and properties of pharmacologically active polymers. Journal of Polymer Science: Polymer Symposia. 1975. 51. 1. 135–153. 10.1002/polc.5070510111.
  2. Web site: Helmut Ringsdorf. Humboldt University of Berlin. 7 December 2010.
  3. Web site: Laudatio for Prof. Dr. Helmut Ringsdorf on occasion of the award of the Alfred Saupe Preis 2010. University of Magdeburg. German, English. 7 December 2010. https://web.archive.org/web/20110606155402/http://www-e.uni-magdeburg.de/liquidcr/docs/Laudatio%20Zentel.pdf. 6 June 2011. dead.
  4. Web site: Nachruf - Professor Dr. Helmut Ringsdorf . . de . 29 March 2023.
  5. Web site: Helmut Ringsdorf . Chemie.de . 29 March 2023 . de.