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paints
Society: ACS Main Category: Chemical Sub Category: Era: 1940s DateCreated: 1949 Philadelphia State: PA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/acrylicemulsion.html Creator: Rohm and Haas [now The Dow Chemical Company]

Developed by Rohm and Haas in the 1940s, water-based acrylic emulsion technology filled a need for easy-to-use household paints for a growing suburban population in the United States following World War II. This aqueous technology required less preparation to use, was easier to clean up, had less odor, and performed better than or equal to paints made with solvents. It was also a leap forward in acrylic chemistry.

YearAdded:
2008
Image Credit: Courtesy Flickr/United Soybean Board (CC BY 2.0) Image Caption: From plastics to paints it changed our world
Era_date_from:
Society: ACS Main Category: Chemical Sub Category: Industrial Advances Era: 1980-1989 DateCreated: 1984 200 South Wilcox Drive Kingsport State: TN Zip: 37660 Country: USA Website: http://www.acs.org/content/acs/en/education/whatischemistry/landmarks/chemicalsfromcoal.html Creator: Eastman Chemical Company

Chemicals from the Coal Facility of Eastman Chemical Company was the first in the United States to use coal rather than petroleum as a raw material in the commercial production of acetyl chemicals — important building blocks in the synthesis of a wide range of consumer products. The plant, located in Kingsport, Tennessee, began operation in 1983 after more than a decade of planning and construction, prompted by the oil embargoes of the 1970s.

YearAdded:
1995
Image Credit: Courtesy Eastman Chemical Company. Image Caption: Flow diagram for the chemicals from coal facility. Era_date_from:
Williams-Miles History of Chemistry Collection
Society: ACS Main Category: Chemical Sub Category: Cradles of Chemistry Era: 1890-1899 DateCreated: Brackett Library Searcy State: AR Zip: 72143 Country: USA Website: http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_SUPERARTICLE&node_id=760&use_sec=false&sec_url_var=region1&__uuid=f42addef-aaae-4d38-a0d9-841ae6f3cc1d, https://www.acs.org/content/dam/acsorg/education/whatischemistry/landmarks/williams-milescollection/williams-miles-chemistry-collection-at-harding-university-commemorative-booklet.pdf Creator: Miles, Wyndham , National Institutes of Health

The Williams-Miles History of Chemistry Collection, established in 1992, is one of the leading historical collections of chemistry books in the southern United States. It represents a combined 70 years of scholarly collecting by Wyndham D. Miles, National Institutes of Health, Bethesda, Maryland, and William D. Williams, Professor of Chemistry at Harding University. More than 2,000 volumes published between 1600 and 1900 are preserved here; the collection is particularly strong in 19th-century works.

YearAdded:
1996
Image Credit: Courtesy ACS Image Caption: Williams-Miles History of Chemistry Collection at Harding University Era_date_from:
Riverside Laboratory
Society: ACS Main Category: Chemical Sub Category: Cradles of Chemistry Era: 1920-1929 DateCreated: 1921 Riverside Laboratory McCook State: IL Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/uoplaboratory.html Creator: Dubbs, Carbon Petroleum (C. P.) , Halle, Hiram

This research and development complex was established by the founders of Universal Oil Products (later named UOP) to develop key products for the oil-refining industry. The processes created here profoundly affected the refining, treatment and conversion of crude oil and the development of the petroleum and petrochemical industries. Conceived as a combination of quiet academic retreat and industrial plant, Riverside attracted many of the world's leading petroleum scientists and a dedicated support team. Between 1921 and 1955, Riverside research resulted in 8,790 U.S. and foreign patents.

YearAdded:
1995
Image Credit: Courtesy ACS Image Caption: A laboratory at Riverside Era_date_from: 1921
Foundation of Polymer Science by Hermann Staudinger
Society: ACS Main Category: Chemical Sub Category: Frontiers of Knowledge Era: 1920-1929 DateCreated: 1926-1956 University of Freiburg Freiburg im Breisgau State: Zip: 79117 Country: Germany Website: https://www.acs.org/content/dam/acsorg/education/whatischemistry/landmarks/staudingerpolymerscience/foundation-of-polymer-science-by-herman-staudinger-commemorative-booklet.pdf Creator: Staudinger, Hermann

In the years 1926 to 1956, the German chemist Hermann Staudinger carried out his pathbreaking research on macromolecular chemistry in Freiburg. His theories on the polymer structures of fibers and plastics and his later research on biological macromolecules formed the basis for countless modern developments in the fields of materials science and biosciences and supported the rapid growth of the plastics industry. For his work in the field of polymers, Staudinger was awarded the Nobel Prize for chemistry in 1953.

YearAdded:
1999
Image Credit: Original Image: Public Domain; Produced prior to 1/1/1969 (SWEDISH) Image Caption: Hermann Staudinger Era_date_from: 1926
Discovery of Organic Free Radicals by Moses Gomberg
Society: ACS Main Category: Chemical Sub Category: Frontiers of Knowledge Era: 1900-1909 DateCreated: 1900 University Of Michigan Ann Arbor State: MI Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/freeradicals.html Creator: Gomberg, Moses

In 1900, Moses Gomberg, Professor of Chemistry at the University of Michigan, confirmed the existence of a stable, trivalent organic free radical: triphenylmethyl. In so doing, he challenged the then prevailing belief that carbon could have only four chemical bonds. Gomberg’s discovery made a major contribution to theoretical organic chemistry and fostered a field of research that continues to grow and expand. Today, organic free radicals are widely used in plastics and rubber manufacture, as well as medicine, agriculture and biochemistry.

YearAdded:
2000
Image Credit: Public Domain (Copyright Exp.) Image Caption: Discovery of Organic Free Radicals by Moses Gomberg Era_date_from: 1900
Nucleic Acid and Protein Chemistry Research at Rockefeller University
Society: ACS Main Category: Chemical Sub Category: Cradles of Chemistry Era: 1900-1909 DateCreated: 1901 Rockefeller University New York State: NY Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/rockefelleruniversity.html Creator: Rockefeller, John , Levene, Phoebus

For more than a century, scientists at Rockefeller University have enhanced our understanding of the molecular basis of life — specifically the relationship between the structure and function of nucleic acids and proteins. They showed that DNA transfers genetic information and that the sugars ribose and deoxyribose are the key building blocks of the nucleic acids RNA and DNA.

YearAdded:
2000
Image Credit: Courtesy Flickr/S Shepherd (CC BY 2.0) Image Caption: Nucleic Acid and Protein Chemistry Research at Rockefeller University Era_date_from: 1901
Society: ACS Main Category: Chemical Sub Category: Frontiers of Knowledge Era: 1970-1979 DateCreated: 1970s University Stony Brook State: NY Zip: 11794 Country: USA Website: http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_SUPERARTICLE&node_id=606&use_sec=false&sec_url_var=region1&__uuid=76a7f9e4-c2f5-40cc-8c9f-38996ee20049 Creator: Lauterbur, Paul
In the early 1970s, American chemist Paul C. Lauterbur demonstrated that nuclear magnetic resonance (NMR) could be used to generate images of macroscopic objects. In the years following, magnetic resonance imaging (MRI) has been refined as a technique for the detailed resolution of internal structures. Lauterbur’s invention thus created a powerful diagnostic tool for the non-invasive examination of body tissues such as the brain, heart, and muscles. It allows for the early detection of cancer and other diseases.
YearAdded:
2011
Image Credit: Original Image: Courtesy of Flickr/Everyone's Idle (CC BY-SA 2.0) Image Caption: NMR and MRI: Applications in Chemistry and Medicine Era_date_from: 1970s
Neil Bartlett and the Reactive Noble Gases
Society: ACS Main Category: Chemical Sub Category: Frontiers of Knowledge Era: 1960-1969 DateCreated: 1962 Dept of Chemistry Vancouver State: BC Zip: V6T 1Z1 Country: Canada Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/bartlettnoblegases.html Creator: Bartlett, Neil

In 1962 Neil Bartlett demonstrated the first reaction of a noble gas. The noble gas family of elements - helium, neon, argon, krypton, xenon, and radon - had previously been regarded as inert. By combining xenon with a platinum fluoride, Bartlett created the first noble gas compound. This reaction began the field of noble gas chemistry, which became fundamental to the scientific understanding of the chemical bond. Noble gas compounds have helped create anti-tumor agents and have been used in lasers.

YearAdded:
2006
Image Credit: Image courtesy University of British Columbia Library. Image Caption: Neil Bartlett and the Reactive Noble Gases Era_date_from: 1962
Discovery of Oxygen by Joseph Priestly
Society: ACS Main Category: Chemical Sub Category: Frontiers of Knowledge Era: 1750-1799 DateCreated: 1774 Joseph Priestley House Northumberland State: PA Zip: 17857 Country: USA Website: http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_SUPERARTICLE&node_id=521&use_sec=false&sec_url_var=region1&__uuid=0af17f7c-0447-4b06-a716-8e74a6b01a5f Creator: Priestley, Joseph

When Joseph Priestley discovered oxygen in 1774, he answered age-old questions of why and how things burn. An Englishman by birth, Priestley was deeply involved in politics and religion, as well as science. When his vocal support for the American and French revolutions made remaining in his homeland dangerous, Priestley left England in 1794 and continued his work in America until his death. His library of some 1,600 volumes and his chemical laboratory, where he first isolated carbon monoxide, were probably the best in the country at that time.

YearAdded:
2000
Image Credit: Public Domain; Produced prior to 1/1/1923 Image Caption: Joseph Priestley: Discoverer of Oxygen Era_date_from: 1774
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