David R. Bryant Explained

David R. Bryant (born May 8, 1936 in Greensboro, North Carolina, USA) is an internationally acclaimed organic chemist, having worked his entire thirty-nine-year 'early career' at Union Carbide. He is inventor on some ninety patents, and a recipient of the Perkin Medal. He currently is a member of Renewable Algal Energy (RAE) LLC, and is working to commercialize an algae-to-oil process utilizing RAE's patent pending technology.

Early life and education

Bryant grew up in Greensboro, North Carolina as one of seven children. He began working at age ten and held various jobs throughout his youth. He was influenced by his high school science teacher, Arnold Bolen, and decided to pursue chemistry in college. After graduation from high school, he earned a scholarship to Wake Forest University where he double-majored in chemistry and math. While at Wake Forest, he became a lab assistant and conducted synthetic research without the benefit of advanced instrumentation. After receiving his B.S. in 1958, Bryant pursued his Ph.D. at Duke University, with a fellowship from the National Science Foundation. Focusing on organic chemistry, with a minor in physics, he worked on the conversion of organic compounds into dianions under Charlie Hauser and received his doctorate in three years.

Early career: Union Carbide (1961–2000)

After earning his Ph.D. in 1961, he immediately went to work for Union Carbide Corporation. He spent the next 39 years there, retiring in 2000. His career at Union Carbide was multi-dimensional: he did fundamental research in organic chemistry in an industrial setting, contributing to Union Carbide's research and development program through his scientific innovations. His early work involved the vinyl acetate process, research on rhodium and acrylic acid work. He served as a technical witness for Union Carbide in lawsuits involving maritime arbitration, industrial accidents, and participated with the firm's attorneys in intellectual property development. He was innovative in the development of a method of producing vinyl acetate without halide, and later benzyl acetate, acrylic acid, and rhodium triphenylphosphite in the oxo process. Union Carbide recognized his leadership skills as he was on the selection team for new chemists, mentored them throughout their careers and was instrumental in implementing continuing education programs for all employees. He received numerous promotions and was the youngest Union Carbide appointment to Senior Corporate Fellow. He won the prestigious Union Carbide Chairman's award three times. He is listed as inventor on more than 90 U.S. patents. Some thirteen of these were filed after his retirement from Union Carbide. During his career at Union Carbide, he pursued approximately thirty-five different processes, nine of which reached commercial operation. Currently there are 27 licensees worldwide using technology he assisted in developing. Dr. Bryant is considered to be one of the world's experts in separating product from precious metal with the use of a homogeneous catalyst.

Honors and awards

Bryant has received awards from his peers in the chemistry industry, the education community, and the state of West Virginia for his many professional and civic achievements. In 1998, Bryant was awarded the Perkin Medal. The award recognized his accomplishments on a low pressure Oxo process for producing aldehydes. Bryant was interviewed in 1998 by James G. Traynham of the Chemical Heritage Foundation's Center for Oral History.[1] [2] He retired from Union Carbide in 2000 as a Senior Corporate Fellow.

Later career: Renewable Algal Energy (RAE, LLC) (2009 – present)

In 2009, Bryant joined Renewable Algal Energy (RAE, LLC) as an inventor and patent strategist. As a RAE team member, Dr. Bryant is using the same inventive skills and patent techniques that he employed in organic chemistry to work with non-GMO algae aquaculture, including harvesting and extracting oil from algae. In this new capacity, he has already assisted RAE in filing several new patent applications in their state-of-the-art technology for harvesting and extracting oil from algae. Another easy transition for Dr. Bryant in this new career has been embracing the 'green' philosophy of the RAE team. His lifelong work ethic has been that of 'working with nature to minimize nature' a philosophy also shared by RAE's scientific team. All aquaculture work conducted by RAE is with native strains of algae, non-GMO (not genetically modified), and with open ponds unlined with plastic. Thus, common problems of being unable to produce algae-to-oil at a commercially viable rate have been solved.

Civic activities

Bryant has been a teacher and mentor for young, newly hired chemists throughout his professional career. And he has extended that lifelong passion for helping others through education to his community. Bryant teaches remedial math, book carpentry and book electricity to disadvantaged women in a program called Step Up for Women in Charleston, West Virginia. He assisted two individuals with their GED preparation, both of whom were successful. He is an avid photographer, with published work and has shared his expertise by teaching free public classes in photography in Charleston. Bryant and his wife, Barbara, are both volunteers with the Community Music Association in Charleston, West Virginia.

Publications (partial list)

Bryant, D. R. (2006). Classical Homogeneous Catalyst Separation Technology. In Cole-Hamilton, D. & Tooze, R. (Eds.) . Catalyst Separation, Recovery and Recycling: Chemistry and Process Design (pp 9–37). Dordrecht, The Netherlands: Springer.

Patents

90 American patents listed at the U.S. Patent Office.[8]

External links

Notes and References

  1. Web site: Center for Oral History. David R. Bryant . .
  2. Book: James G. . Traynham. David R. Bryant, Transcript of an Interview Conducted by James G. Traynham in South Charleston, West Virginia on 8 April 1998 . 8 April 1998 . Philadelphia, PA. .
  3. Web site: The 1977 Kirkpatrick Chemical Engineering Achievement Award. 1978. Platinum Metals Review. 23 May 2010. 31 January 2013. https://web.archive.org/web/20130131034943/http://www.platinummetalsreview.com/pdf/pmr-v22-i1-013-013.pdf. dead.
  4. Web site: Chemical Pioneers . . 23 May 2010 . dead . https://web.archive.org/web/20061003203021/http://www.theaic.org/desktopdefault.aspx?tabid=57 . October 3, 2006 .
  5. Web site: ACS Award in Industrial Chemistry. American Chemical Society. 23 May 2010. https://web.archive.org/web/20110724223618/http://webapps.acs.org/findawards/detail.jsp?ContentId=CTP_004531. 24 July 2011. dead.
  6. Web site: Delaware Section - Carothers. Webs. American Chemical Society. 23 May 2010.
  7. Web site: Past Perkin Medallists. SCI America. 21 February 2018. 23 October 2017. https://web.archive.org/web/20171023003404/http://sci-america.org/site/?page_id=227. dead.
  8. Web site: Patent Database Search Results: Bryant, David. United States Patent Office. 23 May 2010.