Johann Wilhelm Ritter (1776–1810)

Johann Wilhelm Ritter was born ion 16 December 1776 in Samitz (then Silesia, Germany, now Chojnow, Poland). After working for five years as an apprentice to a pharmacist, in 1795 a small inheritance allowed to enter the University of Jena to the age of nineteen. There, he benefited from the scientific mentorship of Alexander von Humboldt (1769–1859), who reinforced his interests into electrical experiments. In 1801 he was appointed to the court of Ernst II, duke of Gotha-Altenburg, and in 1804 moved to the Bavarian Academy of Science in Munich, where he remained until his untimely death on 23 January 1810.

Johann Wilhelm Ritter image
Drawing of Johann Wilhelm Ritter (1776–1810).
Credit: Wikipedia.

Ritter was interested primarily in electricity, in particular electrochemistry and electrophysiology, areas in which he made many remarkable discoveries. In 1799 he carried out electrolysis of water, and in 1800 investigated the process of electroplating. In 1801 he observed thermoelectrical currents, and investigated the artificial electrical excitation of muscles. In 1802–1803 he built the first dry cell battery and accumulator.

In 1801 Ritter discovered ultraviolet radiation by chemical means. This foray into spectroscopy was motivated by the discovery of infrared radiation by William Herschel in 1800, coupled to his general belief in electrical polarity pervading Nature: Invisible radiation beyond the visible red simply had to be paired to invisible radiation beyond the violet, a speculation in line with the "Naturphilosophie" he espoused when engagingin philosophical theorizing.

Ritter had a difficult writing style, a marked tendency to speculate to excess, and procrastinated heavily when it came to publishing detailed accounts of his investigations and discoveries. For these reasons, many of his findings went unnoticed, only to be soon independently rediscovered by other scientists. In the last years of his life, his scientific credibility was also damaged by his interest in occult phenomena, and more importantly by the inability of other scientists to reproduce his experiments in this area. Thus dismissed by most of his scientific peers, facing severe financial difficulties and family illnesses, Ritter died a embittered man a few weeks after his thirty-third birthday. It took over a century before his scientific work was given due credit.

McRae, R.J., The Dictionary of Scientific Biographies, 1980–1990, New York.