GavinCraig Gavin A. Craig(ガビン クレイグ)

Address:
Institute for Integrated Cell-Material Sciences (WPI-iCeMS),
Kyoto University,
iCeMS Research Bldg, Yoshida, Sakyo-ku, Kyoto 606-8501, Japan
Tel: +81-75-753-9869
E-mail: gcraig@icems.kyoto-u.ac.jp

[Academic Career]

2018/Aug.-present: Assistant Professor
Institute for Integrated Cell-Material Sciences (iCeMS),
Kyoto University, Japan
2016/Aug.-2018/Jul: JSPS Postdoctoral Fellow
Institute for Integrated Cell-Material Sciences (iCeMS),
Kyoto University, Japan
2013/Nov.-2016/Jul.: Post-Doctoral Research Assistant
School of Chemistry, University of Glasgow, United Kingdom
(Supervisor: Prof. Mark Murrie)

[Education]

2010/Feb.-2013/Jun.: Ph. D.
Degree: Chemistry
University of Balcelona, Spain
(Supervisor: Dr. Guillem Aromí)
2008/Sep.-2010/Jan.: M. Sci.
Major: Chemistry
University of Balcelona, Spain
(Supervisor: Dr. Guillem Aromí)
2003/Oct.-2008/Jun.: M. Sci.
Major: Chemistry
University of Glasgow, United Kingdom

[List of Publications]

[32] “Self-assembly of metal-organic polyhedra into supramolecular polymers with intrinsic microporosity.”
A. Carné-Sánchez, G. A. Craig, P. Larpent, T. Hirose, M. Higuchi, S. Kitagawa, K. Matsuda, K. Urayama, and S. Furukawa
Nat. Commun. 20189, 2506.

[31] “Switchable gate-opening effect in metal-organic polyhedra assemblies through solution processing”
G. A. Craig, P. Larpent, S. Kusaka, R. Matsuda, S. Kitagawa, and S. Furukawa
Chem. Sci. 20189, 6463-6469.

[30] “Slow magnetic relaxation in a CoIICo2III complex containing a high magnetic anisotropy trigonal bipyramidal CoII centre”
A. Collet, G. A. Craig, M. J. Heras Ojea, L. Bhaskaran, C. Wilson, S. Hill, and M. Murrie
Dalton Trans. 2018, DOI: 10.1039/c8dt01997e.

[29] “Probing the origin of the giant magnetic anisotropy in trigonal bipyramidal Ni(II) under high pressure.”
G. A. Craig, A. Sarkar, C. H. Woodall, M. A. Hay, K. E. R. Marriott, K. V. Kamenev, S. A. Moggach, E. K. Brechin, S. Parsons, G. Rajaraman, and M. Murrie
Chem. Sci. 2018, 9, 1551.

[28] “Ligand-directed synthesis of {MnIII5} twisted bow-ties.”
M. Heras Ojea, M. A. Hay, G. Cioncoloni, G. A. Craig, C. Wilson, T. Shiga, H. Oshio, M. D. Symes, and M. Murrie
Dalton Trans. 2017, 46, 11201-11207.

[27] “A topologically unique alternating [Co3Gd3] magnetocaloric ring.”
M. J. Heras Ojea, G. Lorusso, G. A. Craig, C. Wilson, M. Evangelisti, and M. Murrie
Chem. Commun. 2017, 53, 4799-4802.

[26] “Probing photo-induced spin states in spin-crossover molecules with neutron scattering.”
K. Ridier, G. A. Craig, F. Damay, T. Fennell, M. Murrie, and G. Chaboussant
Phys. Rev. B 2017, 95, 094403.

[25] “Dangling and Hydrolyzed Ligand Arms in [Mn3] and [Mn6] Coordination Assemblies: Synthesis, Characterization and Functional Activity.”
K. Chattopadhyay, G. A. Craig, M. Heras Ojea, M. Pait, A. Kundu, J. Lee, M. Murrie, A. Frontera, and D. Ray
Inorg. Chem. 2017, 56, 2639-2652.

[24] “Pressure induced enhancement of the magnetic ordering temperature in Re(IV) monomers.”
C. H. Woodall, G. A. Craig, A. Prescimone, M. Misek, J. Cano, J. Faus, M. R. Probert, S. Parsons, S. Moggach, J. Martinez-Lillo, M. Murrie, K. V. Kamenev, and E. K. Brechin
Nat. Commun. 2016, 7, 13870.

[23] “Hydroxido-supported and carboxylato bridge-driven aggregation for discrete [Ni4] and interconnected [Ni2]n complexes.”
K. Chattopadhyay, G. A. Craig, A. Kundu, V. Bertolasi, M. Murrie, and D. Ray
Inorg. Chem. 2016, 55, 10783-10792.

[22] “Snapshots of a solid-state transformation: coexistence of three phases trapped in one crystal”
G. Aromí, C. M. Beavers, J. S. Costa, G. A. Craig, G. Minguez-Espallargas, A. Orera, and O. Roubeau
Chem. Sci. 2016, 7, 2907-2915.

[21] “A High-Pressure Crystallographic and Magnetic Study of Na5[Mn(L-tart)2]·12H2O (L-tart = L-tartrate)”
G. A. Craig, C. H. Woodall, S. C. McKellar, M. R. Probert, K. V. Kamenev, S. A. Moggach, E. K. Brechin, S. Parsons, and M. Murrie
Dalton Trans. 2015, 44, 18324-18328.

[20] “3d Single Ion Magnets.”
G. A. Craig, and M. Murrie
Chem. Soc. Rev. 2015, 44, 2135-2147.

[19] “Field-Induced Slow Relaxation in a Monometallic Mn(III) Single–Molecule Magnet.”
G. A. Craig, J. J. Marbey, S. Hill, O. Roubeau, S. Parsons, and M. Murrie
Inorg. Chem. 2015, 54, 13-15.

[18] “Unusual Crystal Packing in a Family of [Fe{2,6-Bis(pyrazol-3-yl)pyridine}2]2+ Compounds and the Effect on the Occurrence of Spin Crossover and Its Cooperative Character.”
L. A. Barrios, E. Peyrecave-Lleixà, G. A. Craig,* O. Roubeau, S. J. Teat, and G. Aromí
Eur. J. Inorg. Chem. 2014, 6013–6021.

[17] “Linear or Cyclic Clusters of Cu(II) with a Hierarchical Relationship.”
G. A. Craig, M. Schütze, D. Aguilà, O. Roubeau, J. Ribas-Ariño, S. Vela, S. J. Teat, G. Aromí
Inorg Chem. 2014, 53, 3290-3297.

[16] “Three-Way Crystal-to-Crystal Reversible Transformation and Controlled Spin Switching by a Nonporous Molecular Material.”
J. S. Costa, S. Rodríguez-Jiménez, G. A. Craig, B. Barth, C. M. Beavers, S. J. Teat, G. Aromí
J. Am. Chem. Soc. 2014, 136, 3869-3874.

[15] “Spin state switching in 2,6-bis(pyrazol-3-yl)pyridine (3-bpp) based Fe(II) complexes.”
G. A. Craig,* O. Roubeau, G. Aromí
Coord. Chem. Rev. 2014, 269, 13-31.

[14] “High-temperature photo-induced switching and pressure-induced transition in a cooperative molecular spin-crossover material.”
G. A. Craig, J. S. Costa, O. Roubeau, S. J. Teat, H. J. Shepherd, M. Lopes, G. Molnár, A. Bousseksou, G. Aromí
Dalton Trans. 2014, 43, 729-737.

[13] “Fe(II) complexes of a novel polypyrazolyl ligand: The determinant role in spin state played by structural distortion.”
G. A. Craig,* J. S. Costa, O. Roubeau, S. J. Teat, G. Aromí
Transactions ACA 2013, 69-85.

[12] “Multimetastability in a Spin Crossover Compound Leading to Different High-Spin-to-Low-Spin Relaxation Dynamics.”
G. A. Craig, J. S. Costa, S. J. Teat, O. Roubeau, D. S. Yufit, J. A. K. Howard, G. Aromí
Inorg. Chem. 2013, 52, 7203-7209.

[11] “A Novel Fe(II) Spin Crossover Complex Becomes Increasingly Cooperative with Ageing.”
G. A. Craig, J. S. Costa, O. Roubeau, S. J. Teat, G. Aromí
Eur. J. Inorg. Chem. 2013, 745-752.

[10] “Two Isosceles Coordination [Ni3] Triangles Strongly Interacting via Hydrogen Bonds.”
G. A. Craig, O. Roubeau, J. Ribas-Ariño, S. J. Teat, G. Aromí
Polyhedron 2013, 52, 1369-1374.

[9] “Local coordination geometry and spin state in novel Fe(II) complexes with 3-bpp type ligands as controlled by packing forces and structural correlations.”
G. A. Craig, J. S. Costa, O. Roubeau, S. J. Teat, G. Aromí
Chem.-Eur. J. 2012, 18, 11703-11715.

[8] “A molecular [Mn14] coordination cluster featuring two slowly relaxing nanomagnets.”
J. S. Costa, L. A. Barrios, G. A. Craig, S. J. Teat, F. Luis, O. Roubeau, M. Evangelisti, A. Camón, G. Aromí
Chem. Commun. 2012, 48, 1413-1415.

[7] “Molecular [Co(III)Co(II)] x 2 assemblies of a new bis-phenol/pyrazolyl ligand.”
G. A. Craig, J. S. Costa, D. Aguilà, L. A. Barrios, O. Roubeau, S. J. Teat, G. Aromí
New J. Chem. 2011, 35, 1202-1204.

[6] “New Route to Local Order Models for Disordered Crystalline Materials: Diffuse Scattering and Computational Modeling of Phloroglucinol Dihydrate.”
L. H. Thomas, G. A. Craig, C. A. Morrison, A. M. Reilly, C. C. Wilson
Cryst. Growth Des. 2011, 11, 2045-2049.

[5] “Conformational polymorphism of the molecular  complex of 3-fluorobenzoic acid with 4-acetylpyridine.”
L. H. Thomas, G. A. Craig, M. J. Gutmann, A. Parkin, K. Shankland, C. C. Wilson
CrystEngComm. 2011, 13, 3349-3354.

[4] “The Use of a Bis(phenylpyrazolyl)pyridyl Ligand to Prepare [Mn4] and [Mn10] Cage Complexes.”
J. S. Costa, G. A. Craig, L. A. Barrios, O. Roubeau, E. Ruiz, S. Gomez-Coca, S. J. Teat, G. Aromí
Chem. Eur. J. 2011, 17, 4960-4963.

[3] “Coupled Crystallographic Order-Disorder and Spin State in a Bistable Molecule: Multiple Transition Dynamics.”
G. A. Craig, J. S. Costa, O. Roubeau, S. J. Teat, G. Aromí
Chem. Eur. J. 2011, 17, 3120-3127.

[2] “Synthesis of a novel heptacoordinated Fe(III) dinuclear complex: experimental and theoretical study of the magnetic properties.”
G. A. Craig, L. A. Barrios, J. S. Costa, O. Roubeau, E. Ruiz, S. J.Teat, C. C. Wilson, L. Thomas, G. Aromí
Dalton Trans. 2010, 39, 4874-4881.

[1] “3-Fluorobenzoic acid – 4-acetylpyridine (1/1) at 100K.”
G. A. Craig, L. H. Thomas, M. S. Adam, A. Ballantyne, A. Cairns, S. C. Cairns, G. Copeland, C. Harris, E. McCalmont, R. McTaggart, A. R. G.  Martin, S. Palmer, J. Quail, H. Saxby, D. J. Sneddon, G. Stewart, N. Thomson, A. Whyte, C. C. Wilson, A. Parkin
Acta Cryst. E 2009, E65, o380.