Barbara Askins | |
---|---|
Born | 1939 (age 84–85) Belfast, Tennessee, U.S. |
Alma mater | University of Alabama in Huntsville |
Awards | National Inventor of the Year |
Scientific career | |
Fields | Chemistry |
Institutions | Marshall Space Flight Center |
Barbara S. Askins (born 1939) is an American chemist. She is best known for her invention of a method to enhance underexposed photographic negatives. This development was used extensively by NASA and the medical industry, and it earned Askins the title of National Inventor of the Year in 1978. [1]
Askins was born in Belfast, Tennessee, in 1939. She began her career as a teacher. After her two children entered school, Askins returned to college to complete her bachelor's degree in chemistry and earn her master's degree in chemistry. She joined NASA's Marshall Space Flight Center in 1975. [2]
Askins is a physical chemist who worked for NASA's Marshall Space Flight Center and is best known for her pioneering invention of a process in which "images on developed photographic emulsions can be significantly intensified by making the image silver radioactive and exposing a second emulsion to this radiation." [3] The resulting print, known as an autoradiograph, reproduces the image with significant increases in density and contrast. Her groundbreaking method enhanced underexposed emulsions and increased the limits of photographic detection. In short, it made visible the invisible in photos that would otherwise have been useless. This was very useful for a number of applications, including the coaxing of data from underexposed space images—such as those peering deep into space as well as those highlighting the geology of other bodies in our solar system. [4]
Askins' invention also led to significant advances in the field of medical technology. In particular, Askins' method prompted improvements in the development of X-ray images. Medical images that were 96 percent underexposed suddenly become readable; this meant that doctors could dramatically decrease the amount of X-ray radiation they gave to patients when running routine or emergency tests. [5] Askins' process was also later used in the restoration of old photographs. [6] Askins patented her invention in 1978 (U.S. patent No. 4,101,780), [7] and NASA employed it extensively for its research and development work. [4]
In 1978, the Association for Advancement of Inventions and Innovations named Askins the National Inventor of the Year. [6] She was the first individual woman to earn this honor. [4]
Askins is a member of the American Chemical Society, the Sigma Xi honorary research Society, the American Association for the Advancement of Science, and the World Future Society. [5]
The Science, Technology and Innovation (STI) sector in Jamaica is guided by two primary institutions, the National Commission on Science and Technology (NCST) and the Scientific Research Council (SRC). Both are under the direction of the Ministry of Science, Energy, and Technology.
Photographic plates preceded photographic film as a capture medium in photography. The light-sensitive emulsion of silver salts was coated on a glass plate, typically thinner than common window glass. They were heavily used in the late 19th century and declined through the 20th. They were still used in some communities until the late 20th century.
Nuclear chemistry is the sub-field of chemistry dealing with radioactivity, nuclear processes, and transformations in the nuclei of atoms, such as nuclear transmutation and nuclear properties.
The year 1899 in science involved some significant events, listed below.
An autoradiograph is an image on an X-ray film or nuclear emulsion produced by the pattern of decay emissions from a distribution of a radioactive substance. Alternatively, the autoradiograph is also available as a digital image, due to the recent development of scintillation gas detectors or rare-earth phosphorimaging systems. The film or emulsion is apposed to the labeled tissue section to obtain the autoradiograph. The auto- prefix indicates that the radioactive substance is within the sample, as distinguished from the case of historadiography or microradiography, in which the sample is marked using an external source. Some autoradiographs can be examined microscopically for localization of silver grains in which the process is termed micro-autoradiography. For example, micro-autoradiography was used to examine whether atrazine was being metabolized by the hornwort plant or by epiphytic microorganisms in the biofilm layer surrounding the plant.
The history of photography began with the discovery of two critical principles: The first is camera obscura image projection, the second is the discovery that some substances are visibly altered by exposure to light. There are no artifacts or descriptions that indicate any attempt to capture images with light sensitive materials prior to the 18th century.
Craig Jon Hawker is an Australian-born chemist. His research has focused on the interface between organic and polymer chemistry, with emphasis on the design, synthesis, and application of well-defined macromolecular structures in biotechnology, microelectronics, and surface science. Hawker holds more than 45 U.S. patents, and he has co-authored over 300 papers in the areas of nanotechnology, materials science, and chemistry. He was listed as one of the top 100 most cited chemists worldwide over the decade 1992–2002, and again in 2000–2010.
A timeline of United States inventions encompasses the ingenuity and innovative advancements of the United States within a historical context, dating from the Contemporary era to the present day, which have been achieved by inventors who are either native-born or naturalized citizens of the United States. Patent protection secures a person's right to his or her first-to-invent claim of the original invention in question, highlighted in Article I, Section 8, Clause 8 of the United States Constitution which gives the following enumerated power to the United States Congress:
To promote the Progress of Science and useful Arts, by securing for limited Times to Authors and Inventors the exclusive Right to their respective Writings and Discoveries.
Marietta Blau was an Austrian physicist credited with developing photographic nuclear emulsions that were usefully able to image and accurately measure high-energy nuclear particles and events, significantly advancing the field of particle physics in her time. For this, she was awarded the Lieben Prize by the Austrian Academy of Sciences. As a Jew, she was forced to flee Austria when Nazi Germany annexed it in 1938, eventually making her way to the United States. She was nominated for Nobel Prizes in both physics and chemistry for her work, but did not win. After her return to Austria, she won the Erwin Schrödinger Prize from the Austrian Academy of Sciences.
A nuclear emulsion plate is a type of particle detector first used in nuclear and particle physics experiments in the early decades of the 20th century. It is a modified form of photographic plate that can be used to record and investigate fast charged particles like alpha-particles, nucleons, leptons or mesons. After exposing and developing the emulsion, single particle tracks can be observed and measured using a microscope.
Mary Engle Pennington was an American bacteriological chemist, food scientist and refrigeration engineer. She was a pioneer in the preservation, handling, storage and transportation of perishable foods and the first female lab chief at the U.S. Food and Drug Administration. She was awarded 5 patents, received the Notable Service Medal from President Herbert Hoover and the Garvin-Olin Medal from the American Chemical Society. She is an inductee of the National Inventor's Hall of Fame, the National Women's Hall of Fame and the ASHRAE Hall of Fame.
Valerie L. Thomas is an American data scientist and inventor. She invented the illusion transmitter, for which she received a patent in 1980. She was responsible for developing the digital media formats that image processing systems used in the early years of NASA's Landsat program.
Yvonne Madelaine Brill was a Canadian American rocket and jet propulsion engineer. She is responsible for inventing the Electrothermal Hydrazine Thruster (EHT/Resistojet), a fuel-efficient rocket thruster that keeps today’s satellites in orbit, and holds a patent for its invention. During her career she was involved in a broad range of national space programs in the United States, including NASA and the International Maritime Satellite Organization.
Bettye Washington Greene was an American industrial research chemist. She was one of the first few African American women to earn her PhD in chemistry and she was the first African American female Ph.D. chemist to work in a professional position at the Dow Chemical Company. At Dow, she researched latex and polymers. Greene is considered an early African American pioneer in science.
Betty Wright Harris is an American chemist. She is known for her work on the chemistry of explosives completed at Los Alamos National Laboratory. She patented a spot test for detecting 1,3,5-triamino-2,4,6-trinitrobenzene (TATB) in the field, which is used by the Federal Department of Homeland Security to screen for nitroaromatic explosives.
Nellie Ivy Fisher (1907–1995) was a London-born industrial chemist and researcher who specialized in photographic chemistry and became known for her work in Australia as the first woman to lead a division of Kodak.
Marilyn Levy was an American chemist and inventor based at Fort Monmouth. She was awarded the United States Army's Meritorious Civilian Service Award in 1971.