Michael Polanyi: Science as Personal Knowledge and Social Practice.

Tacit knowing: 2016 marked the 125th anniversary of the birth of the physical chemist Michael Polanyi, as well as the 40th of his death. This essay discusses his philosophy of science-in particular, his most significant work in this area, Personal Knowledge-from the perspective of his personal biography, as well as its lasting influence on the social sciences. In the photograph: Michael Polanyi at the Fritz Haber Institute in 1968.

Mine, thine, and ours: collaboration and co-authorship in the material culture of the mid-twentieth century chemical laboratory.

Patterns of collaboration and co-authorship in chemical science from the 1920s to the 1960s are examined with an eye to frequency of co-authorship and differences in allocation of credit during a period of increasing team research and specialization within chemical research groups. Three research leaders in the cross-disciplinary and cutting edge field of X-ray crystallography and molecular structure are the focus of this historical study within a framework of sociological literature on different collaborative patterns followed by eminent scientists. The examples of Michael Polanyi in Berlin and Manchester, Linus Pauling in Pasadena, and Dorothy Crowfoot Hodgkin in Oxford demonstrate the need to de-centre historical narrative from the heroic 'he' or 'she' to the collaborative 'they.

Working tools for theoretical chemistry: Polanyi, eyring, and debates over the "semiempirical method".

Following along with the development of electron theory and quantum mechanics in the 1910s and 1920s, physical chemists began incorporating these new theories and approaches in their studies of activation energies, transition states, and chemical reactions for simple atomic and molecular systems. Among these chemists was Michael Polanyi, one of the founders of modern chemical dynamics, who collaborated with Henry Eyring in the development in the 1930s of a theory of the activated transition state and absolute reaction rates using potential energy surfaces and a semiempirical methodology. This paper examines the circumstances of their collaborative work, its reception, and its implications for further chemical research.

Portraits of science. "The most versatile physicist of his generation".

P. M. S.