David Leigh (scientist)

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David Leigh
David A. Leigh in 2019.png
Leigh in 2019
Born
David Alan Leigh

(1963-05-31) 31 May 1963 (age 61) [1]
NationalityBritish
Alma mater University of Sheffield (BSc, PhD)
Known for Catenanes, Rotaxanes, Molecular knots, Molecular machines
Awards FRS (2009)
FRSE (2005)
Feynman Prize (2007)
Izatt-Christensen Award (2007)
Perkin Prize (2017)
Royal Society Bakerian Medal (2013)
Royal Society of Edinburgh Royal Medal (2021)
Scientific career
Fields Supramolecular chemistry
Organic chemistry
Institutions University of Manchester
University of Edinburgh
University of Warwick
Thesis The synthesis and properties of novel and natural macrocyclic trichothecenes  (1987)
Website catenane.net

David Alan Leigh (born 1963) [1] FRS FRSE FRSC is a British chemist, Royal Society Research Professor [2] and, since 2014, the Sir Samuel Hall Chair of Chemistry in the Department of Chemistry at the University of Manchester. He was previously the Forbes Chair of Organic Chemistry at the University of Edinburgh (2001–2012) and Professor of Synthetic Chemistry at the University of Warwick (1998–2001). [3] [4]

Contents

Education

Leigh was educated at Codsall Community High School and the University of Sheffield. [1]

Career and research

He is noted for the invention of fundamental methods to control molecular-level dynamics and entanglement, including strategies to construct rotaxanes, catenanes and molecular knots and some of the earliest synthetic molecular motors, molecular robots and functional nanomachines.

Using mechanically-interlocked molecular architectures he prepared a novel molecular information ratchet [5] that employs a mechanism reminiscent of Maxwell's demon (although it requires an energy input and so does not challenge the second law of thermodynamics). [6] He has developed a rotaxane based photoactive molecular switch with the capability of changing the hydrophobicity of a surface and thus causing small droplets of liquid to move up hill, against the force of gravity. [7] In 2009 he reported the first small-molecule walker-track system in which a 'walker' can be transported directionally along a short molecular track in a manner reminiscent of the way that biological motor proteins 'walk' along biopolymers in the cell. [8] In 2011 his research group described the smallest molecular knot prepared to date (a 76-atom-loop trefoil knot – three crossing points [9] ) and also a 160-atom-loop pentafoil knot (five crossing points). [10] The Leigh group have also reported the synthesis of an 819 knot, the most complex molecular knot made to date, [11] and a molecular endless knot [12] (the smallest Chinese knot). In 2013 the Leigh group reported [13] a small-molecule machine capable of detaching and assembling a series of amino acid building blocks from a track into a peptide of specific sequence, a very primitive version of the task performed by the ribosome. They also invented the first autonomous chemically-fuelled synthetic molecular motor [14] and demonstrated a small-molecule 'robotic arm' able to transport molecular fragments between sites 2 nm apart on a molecular platform, marking the start of so-called 'small-molecule robotics'. [15] In 2017 the Leigh group reported the first molecular robot that can be programmed to build different molecules. [16] The molecular robot could be programmed to construct any one of four different stereoisomers of a molecular product, a significant step towards a 'molecular assembler'. The achievement was hailed as 'science fiction becomes fact'. [17] In 2020 the Leigh group described the 2D weaving of polymer chains, [18] resulting in a molecularly-woven fabric with a thread count of 40-60 million (the finest Egyptian linen has a thread count of ~1500).

In September 2016 Leigh was suggested as one of three candidates for the potential award of a Nobel Prize for synthetic molecular machines. [19] However, on 5 October 2016 the Nobel Prize in Chemistry was awarded to J. Fraser Stoddart, Ben Feringa and Jean-Pierre Sauvage for the design and synthesis of molecular machines. [20]

Public engagement

Leigh’s 819 molecular knot features in the 2019 Guinness Book of World Records. [21] In 2018 he commissioned ‘Nanobot’, [22] a parody by acapellascience of ‘Havana’ by Camila Cabello, describing the science behind nanorobotics. The ‘Professor David Leigh Prize for Chemistry’ at Codsall Community High School encourages girls and disadvantaged children to study science at university. [23] Leigh is a Director and Governor of Withington Girls' School.

Leigh is a former national champion contract bridge player [24] and an accomplished magician (ex-Edinburgh Magic Circle and the Manchester Circle of Magicians), known for blending magic and science in his public lectures.

Awards and honours

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References

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  2. "Leading scientists awarded Royal Society Research Professorships | Royal Society". royalsociety.org.
  3. Kay, E. R.; Leigh, D. A.; Zerbetto, F. (2007). "Synthetic Molecular Motors and Mechanical Machines". Angewandte Chemie International Edition. 46 (1–2): 72–191. doi:10.1002/anie.200504313. PMID   17133632.
  4. Brouwer, A. M.; Frochot, C.; Gatti, F. G.; Leigh, D. A.; Mottier, L.; Paolucci, F.; Roffia, S.; Wurpel, G. W. (2001). "Photoinduction of Fast, Reversible Translational Motion in a Hydrogen-Bonded Molecular Shuttle". Science. 291 (5511): 2124–2128. Bibcode:2001Sci...291.2124B. doi: 10.1126/science.1057886 . PMID   11251112. S2CID   31639520.
  5. "Leigh's Group's illustrated explanation of the "ratchet"". Archived from the original on 20 August 2008.
  6. "Tiny engine boosts nanotech hopes". 1 February 2007 via news.bbc.co.uk.
  7. "Nanotech team move water droplets". 29 August 2005 via news.bbc.co.uk.
  8. "'Two-legged' molecular walker takes a stroll". Chemistry World. 21 December 2009.
  9. Barran, P. E.; Cole, H. L.; Goldup, S. M.; Leigh, D. A.; McGonigal, P. R.; Symes, M. D.; Wu, J.; Zengerle, M. (2011). "Active-Metal Template Synthesis of a Molecular Trefoil Knot". Angewandte Chemie International Edition. 50 (51): 12280–12284. doi:10.1002/anie.201105012. PMID   21919173.
  10. Ayme, J. F.; Beves, J. E.; Leigh, D. A.; McBurney, R. T.; Rissanen, K.; Schultz, D. (2011). "A synthetic molecular pentafoil knot". Nature Chemistry. 4 (1): 15–20. CiteSeerX   10.1.1.663.4543 . doi:10.1038/nchem.1193. PMID   22169866.
  11. Danon, Jonathan J.; Krüger, Anneke; Leigh, David A.; Lemonnier, Jean-François; Stephens, Alexander J.; Vitorica-Yrezabal, Iñigo J.; Woltering, Steffen L. (2017). "Braiding a molecular knot with eight crossings". Science. 355 (6321): 159–162. Bibcode:2017Sci...355..159D. doi:10.1126/science.aal1619. ISSN   0036-8075. PMID   28082585. S2CID   206654419.
  12. Leigh, David A.; Danon, Jonathan J.; Fielden, Stephen D. P.; Lemonnier, Jean-François; Whitehead, George F. S.; Woltering, Steffen L. (14 December 2020). "A molecular endless (7 4 ) knot". Nature Chemistry. 13 (2): 117–122. doi:10.1038/s41557-020-00594-x. PMID   33318672. S2CID   229163544.
  13. "Tiny molecular machine apes cellular production line". BBC News. 11 January 2013.
  14. Wilson, Miriam R.; Solà, Jordi; Carlone, Armando; Goldup, Stephen M.; Lebrasseur, Nathalie; Leigh, David A. (June 2016). "An autonomous chemically fuelled small-molecule motor" (PDF). Nature. 534 (7606): 235–240. Bibcode:2016Natur.534..235W. doi:10.1038/nature18013. PMID   27279219. S2CID   34432774.
  15. Kassem, S.; Lee, A. T. L..; Leigh, D. A.; Markevicius, A.; Solá, J. (2016). "Pick-up, transport and release of a molecular cargo using a small-molecule robotic arm". Nature Chemistry. 8 (2): 138–143. Bibcode:2016NatCh...8..138K. doi:10.1038/nchem.2410. PMID   26791896.
  16. Kassem, S.; Lee, A. T. L..; Leigh, D. A.; Marcos, V.; Palmer, L. I.; Pisano, S. (2017). "Stereodivergent synthesis with a programmable molecular machine". Nature. 549 (7672): 374–378. Bibcode:2017Natur.549..374K. doi:10.1038/nature23677. PMID   28933436. S2CID   205259758.
  17. @NatureNV (21 September 2017). "Science fiction becomes fact: a machine that assembles molecules" (Tweet) via Twitter.
  18. August, David P.; Dryfe, Robert A. W.; Haigh, Sarah J.; Kent, Paige R. C.; Leigh, David A.; Lemonnier, Jean-François; Li, Zheling; Muryn, Christopher A.; Palmer, Leoni I.; Song, Yiwei; Whitehead, George F. S.; Young, Robert J. (December 2020). "Self-assembly of a layered two-dimensional molecularly woven fabric". Nature. 588 (7838): 429–435. Bibcode:2020Natur.588..429A. doi:10.1038/s41586-020-3019-9. PMID   33328664. S2CID   229300105.
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