“The first meeting that I attended was held in Bridgeport, Connecticut, in 1928. I went with Dr. W. C. Moore, who had previously persuaded me to become a member. I knew immediately that I was interested in the Society. That interest was not due to the papers that I listened to. There was nothing strictly on electro-organic on the program. I believe that it was due to the enthusiasm of the group, and the fact that I was made to feel that I belonged.”
-Sherlock Swann, Jr.

An article by Richard Alkire in the latest issue of Interface.

Electro-organic chemistry had its champion in Sherlock Swann, Jr. His scholarship, especially his massive bibliographic efforts, served singlehandedly to keep alive the promise and spirit of electro-organic chemistry in the U.S. from the 1930s to the 50s.

He was a charter member of the Electro-organic Division of The Electrochemical Society, formed in 1940, and was the first person to hold the offices of Secretary, Vice-Chair, and Chair of that Division. Beginning with his first ECS meeting in 1928 and continuing throughout his life, he played an active role in the Society, including a term as President in 1958-59. He was the Electro-organic Divisional Editor of the Journal of The Electrochemical Society, 1939-59; the Lifetime Honorary Chair of the Chicago Section; and was made an Honorary Member of the Society in 1974.

Swann was born in 1900 in Baltimore, Maryland, where his family had deep roots and a tradition of service to society. His great-grandfather, Thomas Swann, served as governor of Maryland, as mayor of Baltimore, as President of the Baltimore & Ohio Railroad, and was a leading force in the creation of Druid Hill Park, Baltimore’s first large municipal park. His father served as Baltimore police commissioner and subsequently as Postmaster, and led the reconstruction of downtown Baltimore police commissioner and subsequently as Postmaster, and led the reconstruction of downtown Baltimore and its streets after the Great Fire of 1904.

Read the rest.

Gerischer’s immense contributions continue to leave an indelible mark, not only in electrochemistry, but also in physical chemistry and materials chemistry.

An article by Adam Heller, Dieter Kolb, and Krishnan Rajeshwar in the Fall 2010 issue of Interface.

Heinz Gerischer was born on March 31, 1919 in Wittenberg, Germany. He studied chemistry at the University of Leipzig between 1937 and 1944 with a two-year interruption because of military service. In 1942, he was expelled from the German Army because his mother was born Jewish; he was thus found “undeserving to have a part in the great victories of the German Army.” The war years were difficult for Gerischer and his mother committed suicide on the eve of her 65th birthday, in 1943. His only sister, Ruth (born in 1913), lived underground after escaping from a Gestapo prison and was subsequently killed in an air raid in 1944.

In Leipzig, Gerischer joined the group of Karl Friedrich Bonhoeffer, a member of a distinguished family, members of whom were persecuted and murdered because of opposition to Nazi ideology. Bonhoeffer descended from an illustrious chemical lineage of Wilhelm Ostwald (1853-1932) and Walther Hermann Nernst (1864-1941), and kindled Gerischer’s interest in electrochemistry, supervising his doctoral work on periodic (oscillating) reactions on electrode surfaces, completed in 1946. He followed Bonhoeffer to Berlin where his PhD supervisor had accepted the directorship of the Institute of Physical Chemistry at the Humboldt University, and also became the department head at the Kaiser Wilhelm Institute for Physical Chemistry in Berlin-Dahlem (later the Fritz Haber Institute). Gerischer himself was appointed as an “Assistent.” Many years later, Gerischer would return to this distinguished institution as its director. With the Berlin Blockade and the prevailing economic conditions the post-war research was carried out under extremely difficult conditions.

Read the rest.

ECS President Paul Kohl presented one of the Society’s esteemed awards at the 2014 ECS and SMEQ Joint International Meeting.

The Canada Section of The Electrochemical Society is currently seeking nominations for one of its prestigious awards.

W. Lash Miller Award

The Award has been created to honor the memory of W. Lash Miller, an eminent Canadian chemist. He was the Head of the Department of Chemistry at the University of Toronto and President of The Electrochemical Society in 1912. Lash Miller was one of the first proponents of Gibbsian thermodynamics in North America.

The W. Lash Miller Award of the ECS Canada Section was established in 1967 to recognize outstanding technical contribution to the field of electrochemical science and technology and/or solid state science and technology. The candidate must have demonstrated independent research in academia, industry or governmental laboratories.

To be considered for the award, a nominee must be residing in Canada and have obtained his/her last advanced education degree no more than 15 years before the year of the Award (for this cycle, 2015). The recipient does not need to be a member of ECS. The complete award rules may be found here.

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Innovative device detects prostate cancer and kidney disease on the spot.
Credit: Brigham Young University

Scientists from Brigham Young University have developed a remarkably simple device that has the potential to save lives.

The innovative device, created by chemist Adam Woolley and his students, can detect prostate cancer and kidney disease on the spot, all by simply dropping a urine sample into a tiny tube and seeing how far it goes.

This from Brigham Young University:

The tube is lined with DNA sequences that will latch onto disease markers and nothing else. Urine from someone with a clean bill of health would flow freely through the tube (the farther, the better). But even at ultra-low concentrations, the DNA grabs enough markers to slow the flow and signal the presence of disease.

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