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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Chemical crystallography before X-rays | 5/6 | https://en.wikipedia.org/wiki/Chemical_crystallography_before_X-rays | reference | science, encyclopedia | 2026-05-05T16:17:25.610345+00:00 | kb-cron |
In 1888 Friedrich Reinitzer examined the properties of various derivatives of cholesterol which now belong to the class of materials known as cholesteric liquid crystals. Previously, other researchers had observed distinct colour effects when cooling cholesterol derivatives just above the freezing point, but had not associated it with a new phenomenon. Reinitzer found that cholesteryl benzoate does not melt in the same way as most substances, but has two melting points. At 145.5 °C (293.9 °F) it melts into a cloudy liquid, and at 178.5 °C (353.3 °F) it melts again and the cloudy liquid becomes clear. The phenomenon is reversible. Reinitzer sought assistance to understand the phenomenon and, on 14 March 1888, he wrote to Otto Lehmann. They exchanged letters and samples. Lehmann examined the intermediate cloudy fluid, and reported seeing crystallites. Reinitzer's colleague Victor Leopold von Zepharovich also indicated that the intermediate "fluid" was crystalline. Reinitzer published his results, with credit to Lehmann and von Zepharovich, on 3 May 1888. By that time, Reinitzer had discovered and described three important features of liquid crystals (the term was coined by Lehmann in a 1904 monograph): the existence of two melting points, the reflection of circularly polarized light, and the ability to rotate the direction of polarized light. Reinitzer did not pursue the study of liquid crystals further, although in 1908 he had to defend his role in their discovery when Lehmann claimed the priority. The research was continued by Lehmann who started a systematic study, first of cholesteryl benzoate, and then of related compounds which exhibited the double-melting phenomenon. He was able to make observations in polarized light, and his microscope was equipped with a hot stage (sample holder equipped with a heater) enabling high temperature observations. The intermediate cloudy phase clearly sustained flow, but other features, particularly the signature under a microscope, convinced Lehmann that he was dealing with a solid. By the end of August 1889 he had published his results. Lehmann's paper prompted work by Ludwig Gattermann who in 1890 published a paper on the synthesis of azoxyphenol ethers, such as para-azoxyanisole, which exhibited the same double-melting behaviour. Lehmann's interpretation of his results was controversial, and was not accepted by Gustav Heinrich Tammann, Georg Hermann Quincke, and Walther Nernst. In 1905 research by Rudolf Schenck addressed and largely resolved the objections of Tamman, Quincke and Nernst. Lehmann's work was continued and significantly expanded by the German chemist Daniel Vorländer who from the beginning of the 20th century had synthesized most of the liquid crystals known. In 1910–1922 research on liquid crystals, led by Georges Friedel, was carried on in France. In the period before X-rays liquid crystals were seen as merely a curiosity by scientists, and the field did not yield applications until the second half of the 20th century. Liquid crystals are now known to have one- or two-dimensional periodicity, with rod or layer symmetry respectively.
== Late 19th century ==