Slayton A. Evans, Jr.


Slayton A. Evans, Jr. was an American chemist and professor at the University of North Carolina, Chapel Hill. He was a leading researcher into organophosphorus chemistry. His research led to a greater understanding of the functions of organophosphate compounds and innovations in methods to produce chemical compounds for pharmaceutical drugs.

Early life and education

Slayton Alvin Evans, Jr. was born on May 17, 1943 in Chicago, Illinois to Corine M. Thompson Evans and Slayton A. Evans, Sr. Months later, his father was called to serve in World War II. The family moved to Meridian, Mississippi when Slayton was three years old. They lived in a segregated public housing project. His father worked at a J. C. Penney store. He had a chemistry set growing up and would study specimens of plants and insects with a small microscope. Evans and his two younger siblings attended a segregated school run by the Roman Catholic Church. He later attended St. Joseph's High School. In 1957, when Evans was in the ninth grade, news of the artificial satellite Sputnik inspired him to learn about rocketry and attempt to build his own. While he was given permission by the nuns at his school to buy chemicals to make rocket fuel, he had to make his own powdered charcoal. He built six rockets and two of them achieved liftoff.
Evans mowed lawns on weekends. In the eighth grade he was junior assistant janitor at the elementary school. Later he worked in the high school cafeteria. Evans helped pay for his tuition and that of his sister. In his third year of high school, he considered going into the Air Force, but was too tall for flight training. He took several competitive examinations and was the recipient of an academic scholarship to Tougaloo College. He also received an athletic scholarship for basketball and began his studies there in 1961.
By the end of his first year, Evans had top marks in chemistry in his class. He got a summer job working for the pharmaceutical company Abbott Laboratories in Chicago where he was tasked first with creating chemical compounds from raw materials, and later with identifying the stages of chemical reactions. Evans graduated from Tougaloo with a Bachelor of Science in Chemistry in 1965. Evans was encouraged to attend graduate school, though he didn't know how to pay for it. He briefly attended the Illinois Institute of Technology before transferring to Case Western Reserve University in Cleveland, Ohio. He was offered a research assistant position at Case Western and began his graduate studies there. In his first year, he received a draft notice to go to the Vietnam War. University officials contacted the draft board and explained that Evans' research was crucial to the war effort. He was researching a medicine to treat schistosomiasis, a disease caused by parasitic flatworms that are common in Southeast Asia. He completed his coursework in 1969 and received his Ph.D in Chemistry in early 1970.

Research and academic career

Evans took a postdoctoral fellowship at the University of Texas at Arlington for the 1970–1971 academic year. He took a second postdoctoral fellowship at the University of Notre Dame in Indiana for the 1971–1972 academic year. For two years at Notre Dame he worked with organic chemist Ernest L. Eliel and studied stereochemistry. Upon the completion of the fellowship, he was invited to be a research instructor at Dartmouth College in 1972, though they did not have the laboratory equipment he required to continue his research. Evans then joined the faculty of the University of North Carolina at Chapel Hill as Kenan Professor of Chemistry in 1974. He was the first African-American chemistry professor at the university. After 10 years at Chapel Hill, Evans became a full professor.
Evans was a leading researcher into organophosphorus chemistry. He authored more than 85 scientific articles on organosulfur and organophosphorus chemistry. His research led to a greater understanding of the functions of organophosphate compounds and innovations in methods to produce chemical compounds for pharmaceutical drugs. Evans was inspired by William Standish Knowles, who developed a method of asymmetric hydrogenation in 1968. Evans would later research alternative asymmetric synthesis methods as a way to produce non-pharmaceutical stereoisomers. Evans started experimenting with organophosphorus chemistry in 1970, developing a process using phosphorus atoms of organophosphate compounds as agents to produce specific stereoisomers. He also devised a method of asymmetric synthesis to synthesize alpha-amino phosphonic acids by adding phosphorus to sulfimides.
Evans championed recruiting minority applicants to UNC-Chapel Hill. At the university, he assembled a research team of undergraduates and graduate students from around the world. In the 1980s, a Ford Foundation Fellowship allowed him to create ties between his research team and another one at the Paul Sabatier University in France. Later, with the help of a Fulbright Fellowship, he built ties with groups in Mexico, Poland, Germany, Greece, and Russia.
Evans served on committees of the American Chemical Society, the National Institutes of Health, the National Science Foundation, and was chair of the U.S. National Committee of the International Union of Pure and Applied Chemistry. He also served on a council that advised the National Institute of General Medical Sciences.

Selected publications

Awards and recognition

Evans married Tommie Johnson in 1967. They had two children. Evans died on March 24, 2001 in Chapel Hill. The Slayton A. Evans Jr. Memorial Lecture Fund and the Slater Evans Research Award were both named in his honor post-humously.