From Wikipedia, the free encyclopedia
British physicist
Ilya Kuprov
FRSC is a British physicist whose research focuses on
quantum theory of magnetic processes and
nuclear magnetic resonance .
[1] Kuprov is a
professor of
physics at the School of Chemistry of the
University of Southampton ,
[1] a deputy editor of
Science Advances ,
[2] a Fellow of the
Royal Society of Chemistry ,
[1] and a Fellow of the International Society of Magnetic Resonance.
[3]
Birth and education
Kuprov was born in
Polevskoy in what was then the
Soviet Union , and raised in
Tarko-Sale , a small town near the Siberian
Arctic Circle . He completed his undergraduate studies in environmental chemistry at
Novosibirsk State University in 2002, and moved to the UK in the same year. In 2005, he received his
DPhil degree in physical chemistry from
Corpus Christi College, Oxford under the direction of
Peter Hore .
[4] His doctoral thesis explored
chemically induced dynamic nuclear polarisation of 19 F nuclei.
[5]
Career
In 2005 Kuprov was elected a Fellow by Examination at
Magdalen College, Oxford .
[6] In 2009, he received an
EPSRC Early Career Fellowship,
[7] which he held at the Oxford Supercomputing Centre (
University of Oxford ). In 2014 he was appointed associate professor at the
University of Southampton and later promoted to professor.
[1] In 2018, Kuprov joined the
editorial board of Science Advances as an associate editor; he became deputy editor in 2021.
[2] From 2010 to 2021 he was a committee member and then secretary of the
Electron Spin Resonance Group of the
Royal Society of Chemistry .
[8] Kuprov has also been a member of the editorial board of the Journal of Magnetic Resonance Open (the
open access branch of the
Journal of Magnetic Resonance ) since 2019.
[9]
Research and education activities
Kuprov's research focuses on theoretical and computational methods in
magnetic resonance .
[1] As of 2023, his work has produced over 100 scientific publications in
peer-reviewed journals
[10] and a monograph
[11] on spin dynamics. His collaborative research deals with difficult problems in computational modelling of electromagnetic and spin processes. As a theory and simulation specialist in different teams of researchers, he has co-authored papers on magnetic navigation of migratory birds,
[12] spin dynamics in
photosynthesis ,
[13] lanthanide contrast agents for MRI,
[14]
chemically induced dynamic nuclear polarisation of amino acids,
[15]
toroidal spectroscopy of atoms,
[16]
electron spin resonance problems in
structural biology ,
[17]
quantum optimal control theory,
[18] and gravitation sensors using
atom interferometers .
[19]
Kuprov maintains a number of undergraduate and postgraduate online courses in magnetic resonance, computational chemistry, and mathematical methods in chemistry.
[20] He is regularly teaching at magnetic resonance summer schools
[21]
[22] and giving tutorial lectures at magnetic resonance conferences.
[23]
[24]
Bibliography
Publications by Ilya Kuprov
Area
Publisher
Title
Date
Ref.
Physics
Springer
SPIN: from Basic Symmetries to Quantum Optimal Control
15 Mar 2023
[11]
Awards and honors
1999 and 2000 National Mendeleev Prizes for Undergraduate Student Research
[25]
2005 Fellowship by Examination at Magdalen College, Oxford
[6]
2009 EPSRC Early Career Fellowship
[7]
2015 Fellowship of the Royal Society of Chemistry
[1]
2021 Fellowship of the International Society of Magnetic Resonance
[3]
2022 Atreya Award for services to Magnetic Resonance
[26]
References
^
a
b
c
d
e
f
"Professor Ilya Kuprov" . University of Southampton. Retrieved 3 August 2023 .
^
a
b
"Editorial Board, Science Advances" . AAAS. Retrieved 3 August 2023 .
^
a
b
"ISMAR Organization" . ISMAR. Retrieved 3 August 2023 .
^
"Publications of Prof. P.J. Hore" . University of Oxford. Retrieved 9 August 2023 .
^ Kuprov, Ilya (2006). "Chemically Induced Dynamic Nuclear Polarization of 19 F Nuclei".
arXiv :
physics/0604156 .
^
a
b
"Magdalen College Fellows" . magd.ox.ac.uk . 27 November 2001. Archived from
the original on 14 December 2005. Retrieved 26 October 2023 .
^
a
b
"EPSRC Grant EP/H003789/1 "Spin dynamics – from quantum theory to cancer diagnostics" " . EPSRC. 1 October 2009. Retrieved 15 September 2023 .
^
"RSC ESR Group" . Royal Society of Chemistry. Retrieved 9 August 2023 .
^
"Editorial board — Journal of Magnetic Resonance Open" . ScienceDirect.com by Elsevier . 21 September 2023. Retrieved 1 October 2023 .
^
"Articles by Ilya Kuprov" . Google Scholar. Retrieved 3 August 2023 .
^
a
b Kuprov, Ilya (2023). Spin . Springer.
doi :
10.1007/978-3-031-05607-9 .
ISBN
978-3-031-05606-2 .
S2CID
257550153 .
^ Maeda, K.; Henbest, K.B.; Cintolesi, F.; Kuprov, I.; Rodgers, C.T.; Liddell, P.A.; Gust, D.; Timmel, C.R.; Hore, P.J. (2008). "Chemical compass model of avian magnetoreception". Nature . 453 (7193): 387–390.
Bibcode :
2008Natur.453..387M .
doi :
10.1038/NATURE06834 .
PMID
18449197 .
S2CID
4394851 .
^ Santabarbara, Stefano; Kuprov, Ilya; Fairclough, Wendy V.; Purton, Saul; Hore, Peter J.; Heathcote, Peter; Evans, Mike C. W. (2005). "Bidirectional Electron Transfer in Photosystem I: Determination of Two Distances between P700 + and A1 - in Spin-Correlated Radical Pairs". Biochemistry . 44 (6): 2119–2128.
doi :
10.1021/bi048445d .
PMID
15697238 .
^ Chalmers, K.H.; De Luca, E.; Hogg, N.H.M.; Kenwright, A.M.; Kuprov, I.; Parker, D.; Botta, M.; Wilson, J.I.; Blamire, A.M. (2010). "Design Principles and Theory of Paramagnetic Fluorine-Labelled Lanthanide Complexes as Probes for 19 F Magnetic Resonance: a Proof-of-Concept Study". Chemistry – A European Journal . 16 (1): 134–148.
doi :
10.1002/chem.200902300 .
PMID
19957317 .
^ Kuprov, I.; Hore, P.J. (2004). "Chemically amplified 19 F–1 H nuclear Overhauser effects". Journal of Magnetic Resonance . 168 (1): 1–7.
Bibcode :
2004JMagR.168....1K .
doi :
10.1016/j.jmr.2004.01.011 .
PMID
15082243 .
^ Kuprov, I.; Wilkowski, D.; Zheludev, N. (2022).
"Toroidal optical transitions in hydrogen-like atoms" . Science Advances . 8 (45): abq6751.
arXiv :
2205.01412 .
Bibcode :
2022SciA....8.6751K .
doi :
10.1126/sciadv.abq6751 .
PMC
9645728 .
PMID
36351026 .
^ Galazzo, L.; Meier, G.; Januliene, D.; Parey, K.; De Vecchis, D.; Striednig, B.; Hilbi, H.; Schäfer, L.V.; Kuprov, I.; Moeller, A.; Bordignon, E.; Seeger, M.A. (2022).
"The ABC transporter MsbA adopts the wide inward-open conformation in E. coli cells" . Science Advances . 8 (41): abn6845.
Bibcode :
2022SciA....8N6845G .
doi :
10.1126/sciadv.abn6845 .
PMC
9555771 .
PMID
36223470 .
^ de Fouquieres, P.; Schirmer, S.G.; Glaser, S.J.; Kuprov, I. (2011). "Second order gradient ascent pulse engineering". Journal of Magnetic Resonance . 212 (2): 412–417.
arXiv :
1102.4096 .
Bibcode :
2011JMagR.212..412D .
doi :
10.1016/j.jmr.2011.07.023 .
PMID
21885306 .
S2CID
7354938 .
^ Saywell, J.C.; Kuprov, I.; Goodwin, D.; Carey, M.; Freegarde, T. (2018). "Optimal control of mirror pulses for cold-atom interferometry". Physical Review A . 98 (2): 023625.
arXiv :
1804.04625 .
Bibcode :
2018PhRvA..98b3625S .
doi :
10.1103/physreva.98.023625 .
S2CID
59408549 .
^
"Lectures at SpinDynamics.org" . Spin Dynamics Group . 15 September 2023. Retrieved 15 September 2023 .
^
"EFEPR Summer School 2023" . EFEPR . 9 September 2023. Retrieved 15 September 2023 .
^
"Summer School in Biomolecular NMR: Advanced Tools, Machine Learning" . University of Gothenburg . 26 September 2022. Retrieved 15 September 2023 .
^
"ENC Tutorial & Award Lectures" . ENC . 18 April 2023. Retrieved 15 September 2023 .
^
"EUROMAR2023 Tutors" . EUROMAR2023 . 2 December 2022. Retrieved 15 September 2023 .
^
"Mendeleev Prize, 2000" . Moscow State University. Retrieved 9 August 2023 .
^
"Past Atreya Award Recipients" . National Magnetic Resonance Society of India. Retrieved 3 August 2023 .
External links