As a child, his parents tried to get him interested in classical music, but he was more practically inclined, preferring to work on motorcycles and cars. (Although as a teenager he did eventually learn to play the violin and trumpet.) In high school he developed an interest in the natural sciences, focusing onchemistry, which he could learn in a hands-on manner through experiments.[1]
In 1968, Bednorz enrolled at theUniversity of Münster to study chemistry. However, he soon felt lost in the large body of students, and opt to switch to the much less popular subject ofcrystallography, a subfield ofmineralogy at the interface of chemistry and physics. In 1972, his teachers Wolfgang Hoffmann and Horst Böhm arranged for him to spend the summer at theIBM Zurich Research Laboratory as a visiting student. The experience here would shape his further career: not only did he meet his later collaboratorK. Alex Müller, the head of the physics department, but he also experienced the atmosphere of creativity and freedom cultivated at the IBM lab, which he credits as a strong influence on his way of conducting science.[1][2]
After another visit in 1973, he came to Zurich in 1974 for six months to do the experimental part of his diploma work. Here he grew crystals of SrTiO3, a ceramic material belonging to the family ofperovskites. Müller, himself interested in perovskites, urged him to continue his research, and after obtaining his master's degree from Münster in 1977 Bednorz started a PhD at theETH Zurich (Swiss Federal Institute of Technology) under supervision of Heini Gränicher and Alex Müller. In 1978, his future wife, Mechthild Wennemer, whom he had met in Münster, followed him to Zürich to start her own PhD.[1][2]
In 1982, after obtaining his PhD, he joined the IBM lab. There, he joined Müller's ongoing research onsuperconductivity.[3] In 1983, Bednorz and Müller began a systematic study of the electrical properties of ceramics formed fromtransition metal oxides, and in 1986 they succeeded in inducing superconductivity in alanthanum barium copper oxide (LaBaCuO, also known as LBCO). The oxide'scritical temperature (Tc) was 35 K, a full 12 K higher than the previous record. This discovery stimulated a great deal of additional research inhigh-temperature superconductivity on cuprate materials with structures similar to LBCO, soon leading to the discovery of compounds such asBSCCO (Tc 107K) andYBCO (Tc 92K).
In 1987, Bednorz and Müller were jointly awarded the Nobel Prize in Physics "for their important break-through in the discovery of superconductivity in ceramic materials".[4] In the same year Bednorz was appointed anIBM Fellow.
^abcdefghiGeorg Bednorz on Nobelprize.org, accessed 20 April 2020 including the Nobel Lecture, December 8, 1987Perovskite-Type Oxides – The New Approach to High-Tc Superconductivity
