https://www.selleckchem.com/products/a-922500.html Humans primarily interact with information technology through glass touch screens, and the world would indeed be unrecognizable without glass. However, the low toughness of oxide glasses continues to be their Achilles heel, limiting both future applications and the possibility to make thinner, more environmentally friendly glasses. Here, we show that with proper control of plasticity mechanisms, record-high values of fracture toughness for transparent bulk oxide glasses can be achieved. Through proper combination of gas-mediated permanent densification and rational composition design, we increase the glasses' propensity for plastic deformation. Specifically, we demonstrate a fracture toughness of an aluminoborate glass (1.4 MPa m0.5) that is twice as high as that of commercial glasses for mobile devices. Atomistic simulations reveal that the densification of the adaptive aluminoborate network increases coordination number changes and bond swapping, ultimately enhancing plasticity and toughness upon fracture. Our findings thus provide general insights into the intrinsic toughening mechanisms of oxide glasses.The biographical article is dedicated to the memory of Boris Petrovich Ugryumov, a graduate of the Imperial Military Medical Academy (1914), a prominent military pathologist, the First Head of the Department of Pathological Anatomy, Ryazan Medical Institute. The paper presents the major milestones in the life of B.P. Ugryumov; his service on the fronts of the First and Second World Wars and his teaching activity at the Military Medical Academy and the Naval Medical Academy occupy an important place. For about 10 years, he was in charge of the Pathology Department, S.P. Botkin Clinical Infectious Diseases Hospital in Leningrad, which largely determined the area of his professional interests, such as the pathomorphology of infectious diseases, tuberculosis in particular. The archiving and personal photographic docu