Nicholas F. Chilton

Nicholas Frederick Chilton is an Australian chemist and a Senior Lecturer in the Department of Chemistry at the University of Manchester.[1] His research is based on magnetochemistry and computational chemistry, including on the design of high-temperature single molecule magnets, design of molecular spin qubits for quantum information and in developing methods and tools for modelling magnetic calculations. [4]

Nicholas F. Chilton
Born
Nicholas Frederick Chilton
Alma materMonash University[1](BSc.Adv.Hons)
University of Manchester[1](PhD)
Known forMagnetochemistry
Computational Chemistry
Awards
  • Olivier Kahn International Award (2019)[2]
  • British Ramsay Memorial Fellowship (2016 - 2018) [1]
  • Dalton Young Researchers Award (2015)[3]
Scientific career
FieldsComputational chemistry
Magnetochemistry
Theoretical chemistry
InstitutionsThe University of Manchester
ThesisMagnetic Anisotropy of Transition Metal Complexes (2015)
Doctoral advisorProf. Richard Winpenny
Prof. Eric Mcinnes
Websitewww.nfchilton.com

Education

Chilton completed his Advanced Bachelor of Science (Honors) degree at Monash University in 2011 where he finished his final year project with Prof. S. R. Batten and Prof. K. S. Murray.[1] Upon graduation, he read his Doctor of Philosophy degree at the University of Manchester, supervised by Prof.Richard Winpenny and Prof. Eric McInnes, on Magnetic Anisotropy of Transition Metal Complexes and successfully gained his PhD in 2015.[5]

Research and career

Chilton completed postdoctoral research at the Engineering and Physical Sciences Research Council National EPR facility in collaboration with the University of Manchester. In 2016, he was awarded the British Ramsay Memorial Fellowship (2016 - 2018) to research how Coordination chemistry can be used to engineer specific magnetic states of lanthanide ions. He currently works as a Senior Lecturer and a Royal Society University Research Fellow in the Department of Chemistry at the University of Manchester.[1][6]

Chilton's research is generally based on computational chemistry and magnetochemistry, specifically on the design of high-temperature single molecule magnets, design of molecular spin qubits for quantum information, understanding paramagnetic MRI contrast agents, unravelling the electronic structure of uranium molecules, magnetic interactions between f-elements and in developing methods and tools for modelling magnetic calculations.[1][4][7]

Notable work

In 2017, Dr David P. Mills and Dr Nicholas F. Chilton led research on the magnetic hysteresis at 60 Kelvin in dysprosocenium.[8] This was the first time a higher temperature magnetic hysteresis had been observed, with the previous record being 30 K.[9] The research introduced the ability to use liquid nitrogen instead of more expensive liquid helium during the magnetic hysteresis phenomenon which led to the attention of data storage server companies as the research introduced the potential of reducing both costs and energy requirements of data servers.[10]

Dr Chilton has also collaborated in developing software to be used in chemical research.[11] In 2013, Dr Chilton and Dr Alessandro Soncini designed a computer program for the determination of the orientation of the magnetic anisotropy of the mJ = ±15/2 state of DyIII via electrostatic optimation of the aspherical electron density distribution.[12] He also designed a program named PHI for the calculation of the magnetic properties of paramagnetic coordination complexes in the same year [13] and in 2019, with Dr. Daniel Reta, designed CC-FIT2, a tool for the fitting of experimental AC magnetic data using the (generalised) Debye model, extraction of magnetic relaxation times with associated uncertainties, and fitting the temperature dependence of these data accosting for uncertainties in the underlying relaxation times [14]

Awards and Nominations
  • Olivier Kahn International Award (2019)[2]
  • British Ramsay Memorial Fellowship (2016 - 2018) [1]
  • Dalton Young Researchers Award (2015)[3]

Major Reviews and Publications

The following research by Dr. Nicholas F. Chilton has been classified as "hot papers" from the journals in which the paper is published.

  • Goodwin, Conrad A. P.; Ortu, Fabrizio; Reta, Daniel; Chilton, Nicholas F.; Mills, David .P (2017). "Molecular magnetic hysteresis at 60 K in dyspropsocenium". Nature. 548: 439–442. doi:10.1038/nature23447. Retrieved 25 May 2020.
  • Liu, Jingjing; Ortu, Fabrizio; Reta, Daniel; Cleghorn, Jake A.; Yeoh, Yu Xuan; Goodwin, Conrad A.P; Chilton, Nicholas F.; Mills, David .P (2019). "Light Lanthanide Metallocenium Cations Exhibiting WeakEquatorial Anion Interactions". Chem. Eur. J. 25: 7749. doi:10.1002/chem.201901167.
  • Gregson, Matthew P.; Ortu, Fabrizio; Reta, Daniel; Ding, You-Song; McInnes, Eric M.J.; Winpenny, Richard E.P.; Zheng, Yan-Zhen; Liddle, Stephen T.; Goodwin, Conrad A.P; Chilton, Nicholas F.; Mills, David .P (2019). "Studies of hysteresis and quantum tunnelling of the magnetisation in dysprosium(iii) single molecule magnets". Dalton Trans. 48: 8541–8545. doi:10.1039/C9DT01655D.
  • Nicholas, Hannah M.; Vonci, Michele; Loo, Song Wei; Murphy, Siobhan R.; McInnes, Eric M.J.; Winpenny, Richard E.P.; Cassim, Daniel; Goodwin, Conrad A.P; Chilton, Nicholas F.; Mills, David .P (2019). "Electronic structures of bent lanthanide(III) complexes with two N-donor ligands". Chem Sci. 10: 10493–10502. doi:10.1039/C9SC03431E.
  • Parmar, Vijay; Ma, Xiaozhou; Winpenny, Richard E.P.; Clerac, Rodolphe; Chilton, Nicholas F.; Mills, David .P (2020). "Probing relaxation dynamics in five‐coordinate dysprosium single‐molecule magnets". Chem Sci. doi:10.1002/chem.202001235.

References
  1. University of Manchester. "Dr. Nicholas F. Chilton". Retrieved 29 May 2020.
  2. The European Institute of Molecular Magnetism. "Olivier Kahn International Award". Retrieved 29 May 2020.
  3. Royal Society of Chemistry. "Dalton Young Researcher's Award". Retrieved 29 May 2020.
  4. "Nicholas F. Chilton". Retrieved 29 May 2020.
  5. Chilton, Nicholas F. (2015). Magnetic Anistropy of Transition Metal Complexes (PDF) (PhD thesis).
  6. "People in the Chilton Group". Retrieved 29 May 2020.
  7. "Research at the Chilton Group". Retrieved 29 May 2020.
  8. Goodwin, Conrad A. P.; Ortu, Fabrizio; Reta, Daniel; Chilton, Nicholas F.; Mills, David .P (2017). "Molecular magnetic hysteresis at 60 K in dyspropsocenium". Nature. 548: 439–442. doi:10.1038/nature23447. Retrieved 25 May 2020.
  9. Gupta, Sandeep K.; Rajeshkumar, Thayalan; Rajaraman, Gopalan; Murugavel, Ramaswamy (2016). "An air-stable Dy (III) single-ion magnet with high anisotropy barrier and blocking temperature". Nature. 7: 5181–5191. doi:10.1039/c6sc00279j. Retrieved 25 May 2020.
  10. Kenny, Jordan (24 August 2017). "Major leap towards storing data at the molecular level". Manchester, United Kingdom. Retrieved 25 May 2020.
  11. "Software". Retrieved 29 May 2020.
  12. Chilton, Nicholas; Collison, David; McInnes, Eric J. L.; Winpenny, Richard E. P.; Soncini, Alessandro (2013). "An electrostatic model for the determination of magnetic anisotropy in dysprosium complexes". Nature Communications. 4: 2551. doi:10.1038/ncomms3551.
  13. Chilton, Nicholas; Anderson, Russell P.; D. Turner, Lincoln; Soncini, Alessandro; Murray, Keith S. (2013). "PHI: A Powerful New Program for the Analysis of Anisotropic Monomeric and Exchange-Coupled Polynuclear D- And F-Block Complexes". J Comput Chem. 34 (13): 2551. doi:10.1002/jcc.23234.
  14. Chilton, Nicholas; Reta, Daniel (2019). "Uncertainty estimates for magnetic relaxation times and magnetic relaxation parameters". Phys. Chem. Chem. Phys. 21: 23567–23575. doi:10.1039/C9CP04301B.
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