Education
Moscow State University.
Moscow State University.
An epoch in the development of the physical chemistry of colloids and surfaces is associated with his name. lieutenant is universally included in text books on colloid chemistry and is still widely applied in modern studies of interparticle forces in colloids. In particular, the Derjaguin approximation is widely used in order to approximate the interaction between curved surfaces from a knowledge of the interaction for planar ones.
Derjaguin was also briefly involved in polywater research during the 1960s and early 1970s.
This field claimed that if water was heated then cooled in quartz capillaries, it took on astonishing new properties. Eventually, the scientists who were involved in polywater admitted it did not exist, claiming they were misled by poorly designed experiments.
He is also known for having hotly rejected some of the then-new ideas of adhesion as presented by the Western bloc in the 1970s. His model came to be known as the DMT (after Derjaguin, Muller and Toporov) model, while the model presented by Western bloc scientists came to be known as the JKR (after Johnson, Kendall and Roberts) model for adhesive elastic contact.
This rejection proved to be instrumental in the development of the Tabor and later Maugis parameters that quantify which contact model (of the JKR and DMT models) represent adhesive contact better for specific materials.
German Academy of Sciences Leopoldina. Russian Academy of Sciences. Academy of Sciences of the Union of the Soviet Socialist Republics]
As a member of the Russian Academy of Sciences he laid the foundation of the modern science of colloids and surfaces.