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Chemical

First Oil Well
Society: ACS Main Category: Chemical Sub Category: Industrial Advances Era: 1850-1859 DateCreated: 1859 Drake Well Museum Titusville State: PA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/pennsylvaniaoilindustry.html Creator: Drake, Edwin

Long before Texas gushers and offshore drilling, and a century before oil wells dotted Arabian sands and rose out of Venezuelan waters, the center of petroleum production was western Pennsylvania. In the middle of the 19thcentury two developments occurred that guaranteed Pennsylvania’s dominance: The construction, in Pittsburgh, of the first still to refine crude oil into kerosene for use in lighting, and the drilling of the first oil well in Titusville, Pennsylvania.

 

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Image Credit: Image Caption: A retouched photograph showing Edwin L. Drake, to the right, and the Drake Well in the background, in Titusville, Pennsylvania, where the first commercial well was drilled in 1859 to find oil Era_date_from:
Signs
Society: ACS Main Category: Chemical Sub Category: Era: 1930s DateCreated: 1936 Day-Glo Color Corp. Cleveland State: OH Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/dayglo.html Creator: Switzer, Robert and Joseph

DayGlo fluorescent pigments, a new class of pigments based on fluorescent dyes and polymeric materials, were developed between the 1930s and 1950s by scientists at Switzer Brothers, Inc. (now Day-Glo Color Corp.). These pigments absorb various light frequencies (visible and invisible to the human eye) and reemit them, producing intense visible colors that appear to glow, even in daylight.

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2012
Image Credit: Image Caption: Signs are one common use for DayGlo fluorescent pigments. Era_date_from:
SRRC
Society: ACS Main Category: Chemical Sub Category: Era: 1960s DateCreated: 1970s Southern Regional Research Center New Orleans State: LA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/cottonproducts.html Creator: U.S. Department of Agriculture ARS Southern Regional Research Center

By the 1950s, synthetic fabrics - often wrinkle resistant and flame retardant - began to overtake cotton as the dominant U.S. textile fiber. To reverse this trend chemists and chemical engineers at the Southern Regional Research Center initiated research to modify cotton chemically. Their efforts in developing agents that crosslinked the cellulose fibers and in establishing crosslinking mechanisms led to improved durable press fabrics. SRRC studies also developed new agents that improved the durability of flame retardant cotton to laundering.

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2004
Image Credit: Photo courtesy National Archives and Records Administration. (CC BY 2.0) Image Caption: The Southern Regional Research Center in New Orleans, Louisiana in August 1985. Era_date_from:
Columbia Dry Cell Battery
Society: ACS Main Category: Chemical Sub Category: Era: 1890-1899 DateCreated: 1896 Energizer Holdings, Inc. corporate headquarters St. Louis State: MO Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/drycellbattery.html Creator: Lawrence, Washington H.

Imagine a world without batteries. It would be a much different world, in which the automobile and the telephone would have developed differently and probably later, a world without many of the conveniences of modern life and without some of the necessities. The battery, ever smaller and more powerful, defines much of our modern comforts and advances. There were many scientific and technological advances on the way to those smaller and more powerful batteries.

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2005
Image Credit: Courtesy Duke University Image Caption: Columbia Batteries: The World's Standard Era_date_from:
Jamestown
Society: ACS Main Category: Chemical Sub Category: Cradles of Chemistry Era: 1600s DateCreated: Historic Jamestown Settlement Williamsburg State: VA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/jamestownchemistry.html, https://www.acs.org/content/dam/acsorg/education/whatischemistry/landmarks/jamestownchemistry/chemistry-at-jamestown-commemorative-booklet.pdf Creator:

Recent archaeological evidence reveals early Virginia, which included both the Roanoke and Jamestown colonies, as the birthplace of the American chemical enterprise. Chemical processes first applied experimentally at Roanoke were re-introduced at Jamestown twenty years later.

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2007
Image Credit: Courtesy Flickr/bootbearwdc (CC BY 2.0) Image Caption: Housing within James Fort at Jamestown settlement, Virginia Era_date_from:
CAS
Society: ACS Main Category: Chemical Sub Category: Cradles of Chemistry Era: 1900s DateCreated: 1907 Chemical Abstracts Service Columbus State: OH Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/cas.html Creator:

The Chemical Abstracts Service, a division of the American Chemical Society, has provided the most comprehensive repository of research in chemistry and related sciences for over 100 years. CAS innovations have fueled chemical research through development of the CAS RegistrySM and CAS databases which contain invaluable information for chemical scientists, including SciFinder® and STN®.

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2007
Image Credit: Courtesy CAS Image Caption: Chemical Abstracts volume 100, 1984. Era_date_from:
Charles Herty
Society: ACS Main Category: Chemical Sub Category: Industrial Advances Era: 1930s DateCreated: 1932 Herty Advanced Materials Development Center Savannah State: GA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/savannahpaper.html Creator: Herty, Charles Holmes

When Georgia chemist Charles Holmes Herty found a way to make quality paper from pine trees in 1932, he also founded an industry that brought much-needed jobs to the depression-crippled south. Paper producers had deemed the plentiful pine too gummy—until Herty's Savannah Pulp and Paper Laboratory wrote a new chapter in the ancient craft inspired by insects who built paper nests while dinosaurs roamed the earth. At its root, however, the papermaking process remained the same: the bonding of cellulose, a polymer whose long chains support plant cell walls.

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2001
Image Credit: Courtesy U.S. Library of Congress. Image Caption: Portrait of Charles Holmes Herty in 1925. Era_date_from:
Alice Hamilton
Society: ACS Main Category: Chemical Sub Category: Era: 1900s DateCreated: 1910 Jane Addams Hull-House Museum Chicago State: IL Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/alicehamilton.html Creator: Hamilton, Alice

In 1897, Dr. Alice Hamilton (1869-1970) came to Hull-House, a social settlement founded to address the needs of immigrants living on Chicago’s Near West Side. Through living and working in the Hull-House neighborhood, she identified occupational diseases plaguing those who worked in the “dangerous trades”: rubber, dyes, lead, enamelware, copper and mercury production, and explosives and munitions. Collaborating with the U.S. Department of Labor, Hamilton documented the occupational diseases from which these workers suffered.

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Image Credit: Image Caption: Era_date_from:
Dr. Albert Szent-Györgyi
Society: ACS Main Category: Chemical Sub Category: Era: 1930s DateCreated: 1936 University of Szeged Albert Szent-Györgyi Medical Faculty Szeged State: Zip: Country: Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/szentgyorgyi.html Creator: Szent-Györgyi, Dr. Albert

Albert Szent-Györgyi (1893-1986), biochemist, pioneered the study of biological oxidation mechanisms during the 1920s. Between 1930 and 1936, while a Professor at Szeged University, he proved that hexuronic acid, which he had previously isolated, is identical with vitamin C and that it could be extracted in kilogram quantities from paprika.

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2002
Image Credit: Von FOTO:FORTEPAN / Semmelweis Egyetem Levéltára, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=50839515 Image Caption: Dr. Albert Szent-Györgyi circa 1948. Era_date_from:
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
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paints

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…

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Dr. Albert Szent-Györgyi

Albert Szent-Györgyi (1893-1986), biochemist, pioneered the study of biological oxidation mechanisms during the 1920s. Between 1930 and 1936, while a Professor at Szeged University, he proved that hexuronic acid, which he had previously isolated, is identical with vitamin C and that it could be…

Read More
Alice Hamilton

In 1897, Dr. Alice Hamilton (1869-1970) came to Hull-House, a social settlement founded to address the needs of immigrants living on Chicago’s Near West Side. Through living and working in the Hull-House neighborhood, she identified occupational diseases plaguing those who worked in the “…

Read More
Charles Herty

When Georgia chemist Charles Holmes Herty found a way to make quality paper from pine trees in 1932, he also founded an industry that brought much-needed jobs to the depression-crippled south. Paper producers had deemed the plentiful pine too gummy—until Herty's Savannah Pulp and Paper…

Read More
CAS

The Chemical Abstracts Service, a division of the American Chemical Society, has provided the most comprehensive repository of research in chemistry and related sciences for over 100 years. CAS innovations have fueled chemical research through development of the CAS RegistrySM and CAS databases…

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Jamestown

Recent archaeological evidence reveals early Virginia, which included both the Roanoke and Jamestown colonies, as the birthplace of the American chemical enterprise. Chemical processes first applied experimentally at Roanoke were re-introduced at Jamestown twenty years later.

Read More
Columbia Dry Cell Battery

Imagine a world without batteries. It would be a much different world, in which the automobile and the telephone would have developed differently and probably later, a world without many of the conveniences of modern life and without some of the necessities. The battery, ever smaller and more…

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SRRC

By the 1950s, synthetic fabrics - often wrinkle resistant and flame retardant - began to overtake cotton as the dominant U.S. textile fiber. To reverse this trend chemists and chemical engineers at the Southern Regional Research Center initiated research to modify cotton chemically. Their…

Read More
Signs

DayGlo fluorescent pigments, a new class of pigments based on fluorescent dyes and polymeric materials, were developed between the 1930s and 1950s by scientists at Switzer Brothers, Inc. (now Day-Glo Color Corp.). These pigments absorb various light frequencies (visible and invisible to the…

Read More
First Oil Well

Long before Texas gushers and offshore drilling, and a century before oil wells dotted Arabian sands and rose out of Venezuelan waters, the center of petroleum production was western Pennsylvania. In the middle of the 19thcentury two developments occurred that guaranteed Pennsylvania’s dominance…

Read More

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