Einstein Tower, Erich Mendelsohn, 1921, Potsdam, Germany. The solar observatory at the Leibniz Institute for Astrophysics in Potsdam, better known as the Einstein Tower, is architect Erich Mendelsohn’s signature building and a paragon of German expressionism. As the first solar tower telescope in Europe, the building was intended to support Einstein’s study of relativity, and it continues to function as a research center today. Breaking away from the paradigm of rectangular post and beam architecture, Mendelsohn crafted an organic and sinuous form to reflect the new theories of the universe. The use of reinforced concrete to create a smooth, unified skin over the building’s brick substrate was innovative at the time and enabled its expressive plastic form. However, this experimental combination of materials has left the structure vulnerable to water infiltration that threatens the safety of its scientific equipment. A Getty grant will support an in-depth study of the building’s moisture problems, including the thermal stress of fluctuating seasonal conditions that is a shared concern among concrete buildings in temperate climates. Grant support: $48,000 Photo 11 of 14 in Iconic Modern Buildings That Will Be Saved with the Help of the Getty Foundation by Erika Heet

Iconic Modern Buildings That Will Be Saved with the Help of the Getty Foundation

11 of 14

Einstein Tower, Erich Mendelsohn, 1921, Potsdam, Germany.

The solar observatory at the Leibniz Institute for Astrophysics in Potsdam, better known as the Einstein Tower, is architect Erich Mendelsohn’s signature building and a paragon of German expressionism. As the first solar tower telescope in Europe, the building was intended to support Einstein’s study of relativity, and it continues to function as a research center today. Breaking away from the paradigm of rectangular post and beam architecture, Mendelsohn crafted an organic and sinuous form to reflect the new theories of the universe. The use of reinforced concrete to create a smooth, unified skin over the building’s brick substrate was innovative at the time and enabled its expressive plastic form. However, this experimental combination of materials has left the structure vulnerable to water infiltration that threatens the safety of its scientific equipment. A Getty grant will support an in-depth study of the building’s moisture problems, including the thermal stress of fluctuating seasonal conditions that is a shared concern among concrete buildings in temperate climates. Grant support: $48,000