Jump to content

Paul K. Hansma

From Wikipedia, the free encyclopedia
(Redirected from Paul Hansma)
Paul K. Hansma
Hansma in his office (2012)
BornApril 28, 1946
NationalityAmerican
EducationNew College, Sarasota, Fl. Bachelor’s (1967) University of California, Berkeley Ph.D., Physics (1972)
Alma materUniversity of California, Berkeley
OccupationPhysicist
Known forAtomic Force Microscope
WebsiteHansma Lab Website

Paul K. Hansma is an American physicist at the University of California, Santa Barbara.[1]

Early life and education

[edit]

Paul K. Hansma was born in Salt Lake City, Utah on April 28, 1946.[2] He received his undergraduate degree from New College of Florida, and his PhD in physics from the University of California, Berkeley where he studied electron tunneling and Josephson junctions.[3]

Career

[edit]

Hansma became an assistant professor at the University of California, Santa Barbara in 1974. He then became an associate professor three years later.[4] In the 1970s, Hansma began working in electron tunneling spectroscopy, and moved to STM-based experiments by the early 1980s.[5] This included biological STM as of 1985, when he adapted his STM microscopes to work in water (previously STMs would only work in air).[6]

Over the 1980s, Hansma worked in conjunction with IBM Zurich, researching the use of probe microscopy and its use in a variety of different fields.[7] As a part of this work, he co-developed three scanning tunneling microscopes for the University of California, Santa Barbara.[8] In the late 1980s,[9] Hansma then worked on the development of atomic force microscopes and their use in research.[10] This included the use of AFMs in genetic research, using them to observe DNA and RNA molecules in manner that did not disturb their natural interactions during the late 1990s.[11]

In 1991, Hansma researched the process of corrosion in infrastructure and other places like car batteries, and looked at the role the type of electrolyte involved has on the corrosion’s progress.[12] In 2005 Hansma’s discovered the existence of a biopolymer in human bones that provides a “glue” like function, correlatively strengthening or weakening the bone.[13][14] Around this time he also began to develop high-speed scanning AFMs.[15] During his research into bone glue, Hansma developed the OsteoProbe,[16][17] and also spent time researching the use of natural adhesives to create optimized adhesives for other applications.[18] He is also the developer of Reference Point Indentation, which tests bone quality.[19][20] He is also the inventor of Scanning Ion Conductance Microscopy.[21]

Recognition

[edit]

Hansma is the namesake of the Paul Hansma Research Group at the Department of Physics of the University of California, Santa Barbara.[22] In 1964 he was named a Presidential Scholar by President Lyndon Johnson.[23] He is a fellow of the American Physical Society and the American Association for the Advancement of Science, and was the 2000 recipient of the Max Delbruck Prize in Biological Physics.[3]

References

[edit]
  1. ^ "Hansma Research Group – Department of Physics, UC Santa Barbara".
  2. ^ "Paul K. Hansma | Science History Institute | Center for Oral History".
  3. ^ a b "Recipient".
  4. ^ Kenney, Martin; Mowery, David C. (2014-06-18). Public Universities and Regional Growth: Insights from the University of California. ISBN 9780804791427.
  5. ^ Stoner, Jill (2012-03-09). Toward a Minor Architecture. ISBN 9780262300285.
  6. ^ Stoner, Jill (2012-03-09). Toward a Minor Architecture. ISBN 9780262300285.
  7. ^ Stoner, Jill (2012-03-09). Toward a Minor Architecture. ISBN 9780262300285.
  8. ^ Toumey, Chris P. (2019-01-07). Nanotech and the Humanities: An Anthropologist Observes the Science of Atoms and Molecules. ISBN 9781527524255.
  9. ^ "Science: Microscope reveals molecules at work".
  10. ^ Atomic Force Microscopy in Cell Biology. 2002-05-30. ISBN 9780080549446.
  11. ^ "DNA Cliffhanger". 1997-03-19.
  12. ^ "Popular Science". Bonnier Corporation. May 1991.
  13. ^ "C&EN: Latest News - Biopolymer Gives Strength to Bones".
  14. ^ "Findings, March 2006".
  15. ^ Morita, Seizo (2006-12-30). Roadmap of Scanning Probe Microscopy. Bibcode:2006rspm.book.....M. ISBN 9783540343158.
  16. ^ Diez-Perez, A.; Bouxsein, M.L.; Eriksen, E.F.; Khosla, S.; Nyman, J.S.; Papapoulos, S.; Tang, S.Y. (December 2016). "Technical note: Recommendations for a standard procedure to assess cortical bone at the tissue-level in vivo using impact microindentation". Bone Reports. 5: 181–185. doi:10.1016/j.bonr.2016.07.004. PMC 5152622. PMID 27975078.
  17. ^ "Measuring Bone Strength at University of California Santa Barbara". 2014-09-18.
  18. ^ "Nature's frugal glues provide insight for optimized adhesives".
  19. ^ "BizHawk: Medicine Shoppe Pharmacy Closes After Two Decades Downtown". 12 December 2013.
  20. ^ "UCSB Prof Validates New Bone-Quality Testing Tool". 2010-08-09.
  21. ^ Kim, Joonhui; Kim, Seong-Oh; Cho, Nam-Joon (February 2015). "Alternative configuration scheme for signal amplification with scanning ion conductance microscopy". Review of Scientific Instruments. 86 (2): 023706. Bibcode:2015RScI...86b3706K. doi:10.1063/1.4907360. hdl:10356/107021. PMID 25725851.
  22. ^ "Technology Spurs Expansion of AFM Scanning Range". 2013-06-27.
  23. ^ "Scottsdale Progress Newspaper Archives, Jun 3, 1964". 1964-06-03.