Jean-Pierre Leburton

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Jean-Pierre Leburton
Born (1949-03-04) March 4, 1949 (age 75)
University of Illinois at Urbana–Champaign
External videos
video icon Genomics with Semiconductor Nanotechnology, Jean Pierre Leburton

Jean-Pierre Leburton ((1949-03-04)March 4, 1949,

University of Illinois at Urbana–Champaign.[3]
He is also a full-time faculty member in the Nanoelectronics and Nanomaterials group of the Beckman Institute for Advanced Science and Technology.[4][5] He is known for his work on
quantum dots, and quantum wells. He studies and develops nanoscale materials with potential electronic and biological applications.[6]

Early life and education

Jean-Pierre Leburton was born on (1949-03-04)March 4, 1949 to Edmond Jules Leburton and Charlotte (Joniaux) Leburton in Liège, Belgium.[2] His father, at one time Prime Minister of Belgium, sparked Jean-Pierre Leburton's interest in physics.[6]

Jean-Pierre Leburton received his Licence (B.Sc.) in Physics in 1971 and his Doctorat (Ph.D.) in 1978 from the University of Liège, Belgium.[7][1]

Career

Leburton worked as a research scientist at the

Munich, Germany from 1979 to 1981.[8][1][9]

From 1981-1983, Leburton worked at the

University of Illinois at Urbana–Champaign (UIUC) as a visiting assistant professor. In 1983 he joined the faculty as an assistant professor. He became an associate Professor in 1987 and a full professor in 1991. He worked with Karl Hess, co-director of the Beckman Institute for Advanced Science and Technology, and became one of the original faculty members at the Beckman Institute in 1989.[6]

He held the Hitachi LTD Chair on Quantum Materials as a visiting professor at the

Lausanne, Switzerland in 2000.[10]

In 2003, he was named the Gregory E. Stillman Professor of Electrical and Computer Engineering at the University of Illinois.[3] He has been the head of the Computational Electronics group at the Beckman Institute,[11] and is currently a full-time faculty member in the Nanoelectronics and Nanomaterials group at the Beckman Institute.[12] In 2008 he also became a professor of physics at UIUC.[3]

He has published more than 300 papers in technical journals and books.[10] He is first editor of Phonons in semiconductor nanostructures (1993)[13] and co-editor of Contemporary Topics in Semiconductor Spintronics (2017),[14] among others.

Research

Leburton has consistently been a pioneer, whose investigations of ideas begin at the farthest edges of what is possible.[15] In addition to his own research team and other researchers at the University of Illinois, he collaborates with researchers at other institutions.[16] His work has impact in a wide variety of areas, from computer design[16] to medical diagnosis.[17]

"I develop physical models to understand the behavior and operations on novel nanoscale electronic and optical devices. I also use these models to explore new properties of nanostructures. My field of expertise extends from nanoscale silicon transistor operation to the study of quantum wires and quantum dots with the intimate quantum behavior of charge carriers such as the spin of electrons for applications in quantum information processing. I am also interested in molecular electronics to investigate transport in carbon nanotubes and graphene, and more recently the interface between semiconductors and biological systems." — Leburton, 2009[18]

In the 1980s and 1990s, Leburton began to study

quantum confinement using a combination of solid-state physics principles and device simulation.[19]
He was the first to develop a technique for
Monte Carlo simulation of non-linear transport in quantum wires.[8][20][21][22][23]

His simulation tools and physical models help to describe behavior of quantum wires, quantum dots,[8][24] and quantum wells.[25] He has studied the optical properties of

superlattices and established the index of refraction in superlattices both experimentally and theoretically.[26][27][28]

Techniques for effective and inexpensive DNA sensing and sequencing are important to understanding disease mechanisms, identifying genetically-based conditions, and developing methods for personalized diagnosis and treatment. In 2004, the National Institutes of Health (NIH) defined a set of goals for DNA sensing and sequencing. Leburton participated with Greg Timp and others in the NIH's Revolutionary Genome Sequencing Technologies program, popularly known as the "$1000 genome" project.[29][30] Their goal was to develop a synthetic nanopore for the sequencing of DNA. Leburton developed a novel approach, applying techniques from semiconductor technology to artificial nanopores. By 2006, they were able to create multilayer artificial membranes, using semiconductor materials, and to manipulate their ion flow.[31][32][6] Nanopore sequencing has been classed as a third-generation sequencing technique, and considered one of the most promising approaches to meeting the NIH's "gold standard".[29]

Leburton,

graphene nanoribbons, developing and testing models for hybrid solid-liquid systems.[33][34] A two-dimensional material consisting of a single atomic layer of material, graphene has particularly interesting electronic properties.[15] By manipulating graphene's electrical properties, researchers detected DNA molecules passing through a nanopore in a graphene layer embedded in a solid-state membrane. The electrical sensitivity of the graphene membrane varied depending on its geometry. Researchers could detect both rotational and positional conformation of the DNA strand.[33][34]

Leburton and his colleagues have since developed methods for detecting DNA methylation using nanopore sensors. This approach has important applications for the early detection of cancer.[35][17][36]

Leburton has been involved in ongoing study of spintronics in semiconductor nanostructures,[37] including the movement of electrons through carbon nanotubes and the application of physics to all-carbon, cascaded spintronic circuit design.[38] In a high electric field graphene may behave like a transistor. Leburton and others are studying graphene's behavior in such conditions, examining the possibility of developing biomolecules with nanoelectronic properties.[15]

Awards

References

  1. ^
    ISBN 978-0787665234
    .
  2. ^ a b "Chronique de Waremme". Waremme. Archived from the original on 28 January 2018. Retrieved 19 December 2017.
  3. ^ a b c d e "Jean-Pierre Leburton Professor of Electrical and Computer Eng". Physics Illinois. Retrieved 18 December 2017.
  4. ^ "Jean-Pierre Leburton". Beckman Institute. Retrieved 21 December 2017.
  5. ^ Dallas, UT (June 5, 2017). "Researchers Unveil New Spin on Future of Transistors with Novel Design". Beckman Institute. Retrieved 18 December 2017.
  6. ^ a b c d McGaughey, Steve (August 22, 2007). "Father's Gift Led Leburton to Science". Beckman Institute. Retrieved 19 December 2017.
  7. ^
    S2CID 14002512
    .
  8. ^
    ISBN 9780750310178
    . Retrieved 18 December 2017.
  9. doi:10.1117/2.1201510.006115
    . Retrieved 19 December 2017.
  10. ^ a b "2nd World Biotechnology Congress December 04-05, 2017". Conference Series. Retrieved 21 December 2017.
  11. ^ a b "Leburton Named Fellow of Institute of Physics". Beckman Institute. November 10, 2008. Retrieved 19 December 2017.
  12. ^ a b "Leburton Honored by IEEE". Beckman Bulletin. No. January. 2017. Retrieved 21 December 2017.
  13. ISBN 9780792322771
    . Retrieved 27 December 2017.
  14. ISBN 978-981-314-981-6
    .
  15. ^ a b c d Moone, Tom (September 3, 2008). "Leburton named Fellow of the Institute of Physics". ECE Illinois. Retrieved 18 December 2017.
  16. ^ a b Russell, John (June 8, 2017). "Promising Spintronic Switch Proposed by UTD Researcher-led Team". HPCwire. Retrieved 28 December 2017.
  17. ^ a b Ahlberg Touchstone, Liz (April 13, 2017). "Nanopores could map small changes in DNA that signal big shifts in cancer". Phys.Org. Retrieved 28 December 2017.
  18. ^ "Jean-Pierre Leburton Featured Expert". ECE Illinois. Retrieved August 1, 2009.
  19. doi:10.1063/1.333820
    .
  20. doi:10.1063/1.354441
    . Retrieved 27 December 2017.
  21. PMID 9945568
    .
  22. doi:10.1016/0749-6036(92)90238-Z
    .
  23. doi:10.1088/0268-1242/9/5S/130
    .
  24. doi:10.1016/S0026-2692(03)00080-6
    . Retrieved 29 December 2017.
  25. doi:10.1063/1.356153
    .
  26. ISBN 978-3642975899
    .
  27. doi:10.1063/1.332526
    . Retrieved 27 December 2017.
  28. PMID 9939051
    .
  29. ^
    PMID 25610451
    .
  30. ^ "Advanced Sequencing Technology Awards 2005". National Human Genome Research Institute (NHGRI). Retrieved 28 December 2017.
  31. ^ "Developing Semiconductor Membranes for Bio-molecule Control in Nanopores" (PDF). Beckman Institute Annual Report 2006-2007. p. 20. Retrieved 28 December 2017.
  32. ^ Kloeppel, James E. (July 12, 2007). "Semiconductor membrane mimics biological behavior of ion channels". Illinois News Bureau. Retrieved 29 December 2017.
  33. ^ a b Dambrot, Stuart Mason (October 30, 2013). "Through a nanopore, ionically: Graphene quantum transistor for next-generation DNA sensing". Phys.org. Retrieved 28 December 2017.
  34. ^
    PMID 21981556
    .
  35. ^ Cuffari, Benedette (April 4, 2017). "Nanotechnology in 2017: The Story So Far January - May". AZONANO. Retrieved 28 December 2017.
  36. PMID 29399640
    .
  37. ^ "Jean-Pierre Leburton Ph.D." NanoScienceWorks. Retrieved 29 December 2017.
  38. ^ "Engineer Unveils New Spin on Future of Transistors with Novel Design All-Carbon, Spintronic Proposal Could Lead to Smaller, Better Performing Structures in Electronics". University of Texas at Dallas. June 5, 2017. Retrieved 29 December 2017.
  39. ^ "Leburton named associate member of Royal Academy of Belgium". Engineering at Illinois. April 19, 2011. Retrieved 21 December 2017.
  40. ^ "Meeting Highlights" (PDF). Electrochemical Society. Retrieved 21 December 2017.
  41. ^ "Fellow of The Electrochemical Society". The Electrochemical Society. Retrieved 21 December 2017.
  42. ^ "2002 OSA Fellows". OSA The Optiocal Society. Retrieved 21 December 2017.
  43. ^ Kloeppel, James E. (Nov 7, 2001). "AAAS Fellows elected". Illinois News Bureau. Retrieved 21 December 2017.
  44. ^ "APS Fellowship". APS Physics. Retrieved 21 December 2017.
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